SU981971A1 - Device for regulating ac voltage - Google Patents

Description

The invention relates to electrical engineering, in particular to converter technology, and can be used, for example, to limit the voltage of networks with gas discharge lamps.

Known triac voltage regulators containing an actuator and a control unit.

The control unit is based on two half-wave rectifiers connected to the control electrodes of the triacs of the executive body through key elements controlled from the phase-shifting unit with a pulse transformer G 1].

The disadvantage of this device is the stable operation of regulators in circuits with inductive loads.

Closest to the proposed is a device for regulating AC voltage, containing an actuator in the form of several triacs connected between one of the input and the corresponding output terminals, a power supply, the output of which is connected through a key element to the control electrodes of the triacs and a phase-shifting unit with a pulse transformer G 2].

The disadvantage of this device is the asymmetry of the load current curve due to the mismatch of the duration of the control signal with the conduction interval of the triacs, which reduces the reliability of its operation in networks with discharge lamps in the presence of pulsations of the light flux.

The purpose of the invention is to increase the reliability of the device by ensuring the symmetry of the load current curve of the triacs.

This goal is achieved in that the device for controlling AC voltage, containing an actuator in the form of several triacs connected between one of the input and the corresponding output terminal, a power supply, the output of which is connected through the key element to the control electrodes of the triacs, and a phase-shifting unit with a pulse transformer equipped with a current transformer and a zero-organ, and a pulse transformer is made with two input windings, one of which is connected to the output of the phase-shifting block, and other coil via zero-body is connected to the output of the current transformer, Nogo included between the input terminal and the power terminals homonymous simisto- moat.

The drawing shows a functional diagram of the device.

A device for controlling AC voltage contains an actuator 1, input 2 and output 3, 4 and 5 outputs, respectively, a power unit 6, the output of which through a key element 7 is connected to the control electrodes of the triacs of the actuator 1, a phase shifting unit 8 with a pulse transformer 9, null-organ 10 and current transformer 11.

In this case, the pulse transformer 9 is made with two input: windings 12 and 13, one of which (winding 12) is connected to the output of the phase-shifting unit 8, and the other winding 1 3 is connected through the zero-organ 10 to the output of the current transformer 11 connected between the input output 2 and with the same power leads of the triacs of the executive body 1, the other power leads of which are connected to the corresponding loads 14, 15 and 16.

The device operates as follows.

When a positive control signal is supplied from the phase-shifting unit 8, the operation of which is synchronized by the supply network by means of a pulse transformer 9 to the key element 7, the latter opens and a constant current is supplied from the power supply unit to the control electrodes of the triacs of the actuator 1.

Triacs of the executive body 1 open and connect the load of 14.15 and 16 to the mains. When the operating current is reduced to zero from the output of the zero-organ 10 to the input winding 13, a pulse is generated, which is inducted onto the output winding of the pulse transformer 9, as negative relative to the control electrode of the key element 7.

A negative pulse locks the key element 7 and, therefore, interrupts the control current through the control electrodes of the triacs of the actuator 1, ensuring their closure.

Thus, a constant control current flows through the control transitions of the triacs of the actuator 1 during the interval of their conductivity, which ensures the symmetry of the load current curves, and therefore the absence of self-oscillations when feeding an active-inductive load.

Claims (2)

phase-shifting unit, and the Other winding through a null-organ is connected to the output of a current transformer connected between the input terminal and the same power terminals of the triacs. The drawing shows the functional scheme of the device. The device for regulating the alternating voltage contains the actuator 1, the input 2 and the output 3, 4 and 5 pins, respectively, the power supply unit 6, the output of which is through the key element 7 is connected to the control unit of the actuator of the actuator 1, the phase-shifting unit 8 with the pulsed transformer rom 9, zero-organ 10 and current transformer 11. In this case, pulse transformer 9 is made with two input windings 12 and 13, one of which (winding 12) is connected to the output of phase-shifting unit 8, and the other winding 1 3 through zero -organ 10 under lyuchena to the output of current transformer 11 is connected between the input terminal 2 and the power terminals homonymous triacs actuator body 1, the other power terminals are connected to the respective loads 14, 15 and 16. The apparatus operates as follows. When a positive control signal is supplied from the phase-shifting unit 8, whose operation is synchronized by the mains supply through a pulse transformer 9 to the key element 7, the latter is opened and direct current is supplied from the power supply unit b to the control electrodes of the triac of the actuator 1. The triacs of the actuator 1 are opened and the loads 14, 15 and 16 are connected to the mains. When the operating current decreases to zero from the output of the null organ 10 to the input winding 13, a pulse is generated which is induced on the output winding of the pulse transformer 9 as negative with respect to the control electrode of the key element 7. The negative pulse locks the key element 7 and, therefore, interrupts control current through the control electrodes of the triacs of the actuator 1, ensuring their closure. Thus, the control transitions of the triacs of the executive body 1 carry a constant control current during the conduction interval, which ensures the symmetry of the load current and, therefore, the absence of self-oscillations when energizing the inductive load. Claims An alternating voltage control device comprising an actuator in the form of several triacs connected by one of the input terminals and a corresponding output terminal, a power supply unit whose output is connected to the control electrodes of the triacs through a key element, and a phase-shifting unit with a pulse transformer, . l and often, in order to increase reliability, it is equipped with a current transformer and a zero-organ, and a pulse transformer is made with two input windings, one of which toryh phase shifter connected to the output unit and the other coil via zero-body is connected to the output of the current transformer connected between the input terminal and the power terminals odnoimenmi triacs. Sources of information taken into account in the examination 1. Thyristors. Technical Reference, M., Energie, 1971, p. 238. 2.Sokolov V.F. Triac voltage suppressor for lighting networks with gas discharge lamps. Light engineering, 1979, 1.