SU1511740A1 - Device for stepped control of a.c. voltage - Google Patents

Abstract

The invention relates to secondary power sources of radio equipment. The aim of the invention is to reduce the weight and size characteristics of a transformer while maintaining the control range. The goal is achieved by the fact that, if the mains voltage and the specified range are equal, the load is fed directly from the mains with the transformer switched to idle mode. When the permissible maximum or minimum is exceeded, the voltage at the input of the load is regulated by switching the transformer sections to the control mains voltage. In this case, one of the transformer windings is used to lower the voltage both with increasing and decreasing network voltage. The other winding is reversed, with all the windings of the transformer being switched through the switches in accordance with. 1 il.

Description

The invention relates to the field of electrical engineering and is intended to maintain the voltage at the input of the load in a given range with a wide variation in the network voltage, for example, from 140 to 260 V,

The purpose of the invention is to increase the weight and size characteristics of the transformer while maintaining the control range

The drawing shows a diagram of the device

A device for step-by-step adjustment of an alternating voltage comprises a transformer with a main winding 1 connected to the common bus 2 with a start, a sectioned lower voltage winding 3 with sections

4-6, sectioned winding 7 of the voltage increase with sections 8-10, input 11 and output 12 terminals, controlled voltage reducing and increasing switches 13-19 by reference to the voltage of the low voltage and boost voltage winding 7 Winding the voltage is connected between the output terminal 12 and the end of the main winding 1, and the low voltage winding 3 is connected with a tap corresponding to the end of the winding to the input port 11 "

Switches can be implemented on triacs, optocouplers, reed switches or manual switches, while the triacs, optocouplers or reed switches are controlled by a control unit

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the same is not shown), and the switch provides manual control of the device. The boost voltage section 10 of the winding 7 may not be used, but may be used to expand the range of voltage regulation, compensate for the voltage drop across the switches. To extend the upper voltage range of the network between the terminals of the switch 17 and the output terminal 12 may be turned on additional winding section 3 of the voltage decrease (not shown in the drawing) in order to provide the same discrete step along the network voltage sub-bands.

The device works as follows.

In the initial state, the switches 13-19 are closed, so the voltage at the device outputs is zero. When the network voltage, for example, 140-150 V at pins 2 and 11, include switches 13 and 19, the network voltage is applied to the input of the main winding 1. through section 10 of the increase winding 7 or in addition to it, sections 8 and 9 of the winding 7 increase the network voltage and form the output voltage of the regulator in the specified range, for example, from 21 to 227 V

When the mains voltage varies from 150 to 180 V, they are connected via switches 14-16 and 19 to the main winding of the transformer alternately sections 4.4-5.4-6, lower the network voltage to 150 V, and then increase it to sections 8 and 9 windings 7 increase the voltage up to 212-227 V at terminals 2 and 12 and ensure the operation of the device in this mode

When the network voltage is 180 V, switches 13 and 18 turn on, and by section 8 of winding 7, voltage rises on terminals 2 and 12 to set the voltage, and with further increase in network voltage from -190 to 220 V through switches 14-16 and 18 connect the sections of the winding 3 of the lower voltage to the windings 7 and 1 and section 8 form a voltage on the terminals 2 and 12 in the range of 212-227 V.

At the rated voltage of the network from 220 to 230 V, they switch on switches 13 and 17 and feed the network from terminals 2 and 11 to pins 2 and 1

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moreover, as noted above, the network voltage can be further reduced by 3-7 V due to an additional section of the winding 3 of the lower voltage connected between the switch 17 and the output terminal 12 (not shown), In this case, the upper range of the network expands from 258-262 to 263-267 volts

When the mains voltage varies from 230 to 260, voltage reduction winding 3 section 4-6 is connected via switches 14-17 in series with voltage boosting windings 7 and transformer main winding 1, respectively, and a predetermined voltage range is formed at terminals 2 and 12 about

When network voltage decreases from 260 to 150 V, reverse operations are performed and thereby maintain the output voltage of the device in a predetermined range while changing the voltage in the range of 140-260 V

In order to increase the accuracy of controlling the output voltage of the device, the number of sections of the winding 3 undervoltage can be increased while reducing the discrete step (niara switching of the transformer windings by the switches). The use of a lowering winding 3 in an overvoltage mode and a network voltage down mode ensures a reduction in mass and size parameters by reducing the number of switches and the weight of the winding wire while reducing the labor intensity of the device.

Claims (1)

Invention Formula A device for step-by-step control of alternating voltage, containing a transformer with a main winding connected to the common bus, and sectional low voltage and high voltage windings, input and output high voltage controlled and low voltage switches for the number of low and high voltage windings voltage, some pins connected to the corresponding tapes of the windings of the lower and lower voltage, other pins of the controlled lowering and raising switches of the voltage 5-1 51 1 are united in common points, which is due to the fact that, in order to reduce the weight and size characteristics of the transformer while maintaining the control range, the voltage boost winding is turned on according to the main winding 7406 the output terminal and the end of the main winding, the low voltage winding by tapping the end of the winding to the input terminal, and the common points of the controlled low and high voltage switches are interconnected