SU1471153A1 - Device for monitoring phase sequence - Google Patents

Abstract

The invention relates to a measurement technique and can be used to control the alternation of the phases of a three-phase AC network. The purpose of the invention is to simplify the device by using a threshold element as load 3, the first output of which is connected to the neutral wire and the second to the connection point of resistor 1 and capacitor 2, with the resistance of the capacitor at the frequency of the monitored network being equal to the resistance of the resistor. The threshold element can be made in the form of a gas-discharge indicator, a series circuit of an incandescent lamp and a two-anode Zener diode, in the form of an LED and a compensated Zener diode, in the form of a relay winding and a two-pole dynistor. 3 il.

Description

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The invention relates to a measurement technique and can be used to control the alternation of the phases of a three-phase AC network.

The purpose of the invention is to simplify the device.

Fig. 1 is a schematic diagram of a device for controlling phase rotation; Fig. 2 shows embodiments of the threshold load cell; FIG. 3 is a diagram of stresses.

The device (Fig.) Contains a resistor 1, a capacitor 2 and an element on. loads 3 connected by the first terminals respectively to the first 4 and second 5 network phases and the neutral wire 6. The second output of the load element 3 is connected to the second terminals of the resistor 1 and the capacitor 2.

Figure 2 shows the variants of the execution of the threshold load element: as a gas discharge lamp, as a series circuit of an incandescent lamp 8 and a two-channel stabilitron 9, in B1 all the LED 10 and a compensated Zener diode 11, in the form of a relay 12 and two-pole Go dynistor 13.

The device works as follows.

In this order of phase alternation, the voltage vectors U and U are located inside the triangle ABC (Fig. 3). Moreover, between the points n and O, i.e. at the threshold load element, a voltage acts, the amplitude voltage of which is less than the threshold for unlocking the load element 3. When the order of the device inputs is reversed, for example, when phase B is connected to the input of the lamp 7, and phase C to the input of the lamp 8, the voltage vectors U and U / are placed outside the triangle ABC, while the voltage and, on the threshold load cell 3, rises sharply and becomes greater than the unlocking threshold of the load cell 3, which is unlocked, conducts, and triggers whether the load is a relay, and St. Tits, if the light source.

Thus, the threshold element triggers if a device input connected to a resistor is connected to the advanced phase.

With a mains voltage of 220 V, the discharge of lamp 7 can be used as a load gsement;

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For example, a TLO type with an ignition voltage of 145 ... 185 V, at low voltages of the network, an incandescent lamp 8 and a dual-anode zener diode 9 can be used.

Voltage U .; with the specified order of phase alternation, it is equal to h.eFF 0.211;

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Г De Uy ЗФФ И And and .ampl-, respectively, the effective and amplitude voltages at the threshold load element;

and g - linear voltage

controlled network. The voltage U, in the reverse order of phase alternation, is

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From the above ratios, it can be determined that with a voltage of 220 V, the voltage is Uxx. “Mpl with phase alternation is 66 V, with the reverse - 242 V. The indicated voltages allow using most of the gas discharge lamps emitted by the industry.

At low voltages, for example, 36 V, Uxx. o, mpl., 10.8 V, and UL l, .. 39.6 V, so there may be

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incandescent lamps or LEDs with series-connected two-channel diodes (for example, KS213B with unlocking voltage 12 ... 14 V) or single-electrode compensated zener diodes, conductor 5 and in one direction or electromagnetic relay connected via two-antenna zenerion diodes, or directly, due to the presence of its own threshold, it is unlocked, which both AC and DC relays are connected through a diode or bridge bridge.

The formula of the invention is neither

A device for controlling phase rotation, containing a resistor, a capacitor and a load cell, connected by the first bins with the second and third, respectively, of the mains phases and the neutral wire, characterized in that, to simplify the device, a threshold cell is used as the load cell the second view is connected to the second

The outputs of the resistor and capacitor, and the resistance of the capacitor at the frequency of the monitored network is chosen equal to the resistance of the resistor.

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Claims (1)

Claim A device for controlling phase rotation, comprising a resistor, a capacitor and a load element, connected by the first terminals respectively to the second and third, network phases and a neutral wire, characterized in that, in order to simplify the device, a threshold element is used as the load element, its second the output is connected to the second outputs of the resistor and capacitor, and the capacitor resistance on the often controlled network is chosen equal to the resistor resistance. Figure 2