SU1105873A1 - Device for adjusting a.c. voltage - Google Patents

Abstract

1. DEVICE FOR REGULATING AC VOLTAGE, containing a transformer with two power windings, the first of which is connected to the input terminals, and the second with output terminals, one of these windings made with taps, which are connected to one through appropriate controlled keys from the input or output pins, and the control unit, made in the form of a synchronizer of positive and negative half-periods and two logical elements And, one of the inputs of the first of which is connected to the output of syn A positive and negative half-cycle, and its output is with the input of the control pulse distributor, characterized in that, in order to simplify and improve the smoothness of control, each control key is made in the form of a thyristor, while the thyristors associated with each two adjacent taps, included counter to each other. 2. The device according to claim 1, wherein, in order to increase stability when voltage rises from a half-wave of a given polarity, it is equipped with a synchronization of a given polarity, two triggers, one of the inputs the first L of which through the second logical element And is connected to the output of the synchronizer negative and positive. half-periods, and its output is with another input of the first logical element AND, while the output of the second trigger is connected through another input of the logical element OR to another input of the first trigger, and its inputs are connected respectively to one of the outputs of the distributor of control pulses and to the other entrances of the second logical element I. 00

Description

The invention relates to electrical engineering, in particular, to converter equipment, and can be used in regulated power supplies, in which high requirements are imposed on the sinusoidal shape of the output voltage within each half period with a continuous increase in the amplitude of the output voltage from the half period to half period in a linear fashion. the law, for example, when testing for breakdowns of valve dischargers.

A device for regulating a test alternating voltage is known, comprising a regulator in the form of a thyristor regulator connected in series with the primary winding of a transformer.

The disadvantage of such a regulator is the distortion of the output voltage form during phase control of the thyristors.

The closest in technical essence to the present invention is a device for controlling alternating voltage, comprising a transformer with two power windings, the first of which is connected to the input terminals, and the second with output terminals, one of the windings being made with taps, which the respective control keys are connected to one of the input or output pins, and the control unit, made in the form of a synchronizer of positive and negative half-periods and two logical elements AND, One of the inputs of the first of which is connected to the output of the synchronizer of positive and negative half-periods, and its output - to the input of the distributor of control pulses 2.

However, the known device is complex and has insufficient voltage stability, which leads to a decrease in the reliability of the results obtained when testing the valve discharges for breakdown. The purpose of the invention is to simplify and increase the smoothness of the adjustment.

The delivered value is achieved by the fact that in an alternating voltage control device comprising a transformer with two power windings, the first of which is connected to the input terminals and the second to the output terminals, one of the said windings is made with taps through appropriate control keys are connected to one of the input or output pins, and the control unit. made in the form of a synchronizer of positive and negative half-periods and two logical elements And, one of the inputs of the first of which

is connected to the synchronizer output of positive and negative half-periods, and its output is connected to the input of the control pulse distributor, each control key is made in the form of a thyristor, in this case; thyristors associated with each two adjacent taps are connected in opposite directions to each other.

At the same time, to increase the voltage with the half-waves of a given polarity, the device is equipped with a synchronizer of a given polarity, two triggers, one of the inputs of the first of which is connected to the output of the synchronizer of negative and positive half-periods, and its output - with another input of the first logical element AND, while the output of the second trigger through the additionally input logical element OR is connected to another input of the first trigger, and its inputs are connected according to with one of the outputs of the control pulse distributor and the other input of the second logic element I. In FIG. Figures 1 and 2 show a functional diagram of a device for regulating an alternating voltage for the cases of respectively the primary and secondary windings of a transformer with taps.

The device contains a transformer

Ic primary 2 and secondary 3 power windings, with one of these power windings winding 2 (FIG. 1 or winding 3 (FIG. 2) made with taps 4, which are connected to the corresponding thyristors 5 and 6, connected oppositely to each other , the distributor 7 control pulses whose input is connected

with the first logical element And 8, the synchronizer 9 positive and negative half-periods, the first trigger 10, one of the inputs of which through the second logical element And

II connected to the output of the synchronizer 12 is a predetermined polarity, the second trigger 13, the inputs of which are connected respectively to one of the outputs of the distributor 7 control pulses and one input of the second logical element 11, indicator 14, additionally introduced logical element OR 15, through which the output of the second trigger 13 is connected to one of the inputs of the first trigger 10, sensor sample 16, start buttons 17 and stop 18, input 19 and 20, and output 21 and 22 pins, respectively.

Consider the operation of the device of figure 1.

When you press the Start button 17 (not shown in Fig. 1) and the signal from the output of the synchronizer of a given polarity 12, the first trigger 10 is set to the working position (. The signal is at its output j, and the second trigger 13 is set to the non-working position) The signal From the output of the trigger 10 through the first logic element 8 is fed to the input of the distributor 7 control pulses synchronously with the supply voltage. Since the first signal appears in the negative half-period (the synchronizer 12 of a given polarity in Fig. 1 represents the synchronizer of negative polarity is interrupted) and may not start with a zero supply voltage, the first input of the distributor 7 pulses is not involved. Therefore, the second pulse synchronous with the beginning of the positive half-wave of the supply voltage opens one of the thyristors 5, and the third pulse one from thyristors b, etc. In this case, the process always starts with one positive polarity of the applied voltage, and in each next half-period the number of sections of the primary winding connected via the corresponding thyristors 5 and 6. These pins 19 and 20 decrease, and the voltage at output pins 21 and 22 increases. At a certain value of the output voltage, a breakdown of the arrester occurs (not shown in Fig. 1) connected to the output terminals 21 and 22, as a result of which the current in the secondary winding 3 of transformer 1 increases sharply and leads to breakdown of the probe 16. The signal from the sensor output of the probe 16 through the logical element OR 15 is fed to another input of the first trigger 10 and puts it into a non-operating state. The input of pulses to the input of the distributor 7 is stopped, and the thyristor switches 5 and 6 are turned off and the voltage from the output 21 and 22 is removed. To repeat the voltage regulation process, you must press the Start button 17 again. The Stop button 18 serves to interrupt the voltage regulation process at the output terminals 21 and 22 between the device start-up time and the sample sensor 16-triggering moment. In the event that the voltage at the output pins is increased to the maximum value and the probe 16 does not work, in the next period of the supply voltage the pulse from the next output of the distributor 7 is fed to another input of the second trigger 13, the signal from which the OR 15 gate automatically turns off the thyristors 5 and 6, and the voltage from the output pins 21 and 22 is removed and the device returns to its original state. The operation of the device of FIG. 2 is similar, with an increase for example. Neither at the output Pins 21 and 22 occurs due to an increase in the number of sections of the secondary winding 3 of transformer 1, plug 1. corresponding thyristors 5 and 6 to these conclusions.

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Claims (2)

1. A DEVICE FOR REGULATING AC VOLTAGE, containing a transformer with two power windings, the first of which is connected to the input terminals, and the second to the output terminals, while one of the mentioned windings is made with taps that are connected through one of the input keys to one of the input or output conclusions, and the “control unit, made in the form of a synchronizer of positive and negative half-cycles and two logical elements AND, one of the inputs of the first of which is connected to the synchronization output A number of positive and negative half-periods, and its output is with the input of the control pulse distributor, characterized in that, in order to simplify and increase the smoothness of regulation, each controlled key is made in the form of a thyristor, while the thyristors associated with each two adjacent taps are turned on in a relatively each other. 2. The device according to claim 1, it is stipulated by the fact that, in order to increase stability when the voltage increases from a half-wave of a given polarity, it is equipped with a synchronizer of a given polarity, two S triggers, one of the inputs of the first * of which through the second logical / If element is connected to the output of the synchronizer w of the negative and positive half-periods, and its output is connected to * another input of the first logical AND element, while the output of the second trigger through the additionally introduced OR logical element is connected to another entrance first about the trigger, and its inputs are connected, respectively, I with one of the outputs of the distributor of control pulses and the other input of the second logical element I.