SU1374196A1 - A.c. voltage stabilizing device - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to converter technology, and can be used in radio-power supply devices (hardware. The purpose of the invention is to simplify the circuit while simultaneously increasing the reliability of the device. The goal is to include a resistor 13 and 14, the diagonal of the alternating current of the bridge mittel, consisting of diodes 15, 16, 17, 18. In the diagonal of the direct current of the bridge alternator, a sawtooth voltage generator (GUI) is turned on 12. M The master rectifier supplies the FPG 12, the input 9 and the output 8 of the transistors of the second control unit 7 with current flowing through the divider 13, 14. When the thyristor switches 3 of the upstream stage are turned on, the supply shunting occurs, which creates ideal conditions for bringing the circuit to the initial state state and ensures reliability and cost-effectiveness. 1 ill. i (L

Description

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The invention relates to electrical engineering, in particular to converter equipment, and can be used in radio and television equipment power devices.

The aim of the invention is to simplify the circuit while at the same time increasing the reliability of the device.

The drawing shows a diagram of a device for stabilizing a variable voltage.

The alternating voltage stabilizer contains an autotransformer 1, thyristor switches 2 lowering and 3 step-up steps, taps 4 lowering and 5 step-up adjustable-off. the autotransformer 1, the first control unit 6, the second control unit 7, the output transistor 8 and the input transistor 9 of the second control unit 7, the formation unit 10, which includes a voltage sensor 11 and a saw voltage generator 12, a voltage divider consisting of resistors 13 and 14, the bridge rectifier consisting of diodes 15-18, resistor 19, diode 20, input 21, 22, and output 22, 23 and resistors 24 and 25 are connected to the midpoint of the middle point of the bridge.

The first output of the autotransformer 1 is connected to a common bus 22. The second 4 and third 5 taps of the autotransformer 1 are connected via an thyristor switch 2 and 3 to an input terminal 21. The first input control unit 6 is connected in parallel to the thyristor key 3, the output is connected to the control electrodes Thyristor key 2 step down. The second input control unit 7 is connected to the additional winding of the autotransformer 1 and into the gap of the midpoint of the resistive voltage divider 13, 14 through the power diodes 15 - 18. The generator 12 of the sawtooth voltage {is included in the diagonal of the direct current rectifier. By its output, a sawtooth voltage generator 12 is connected via an anti-serially connected voltage sensor 11 to a base-emitter junction of an input transistor 9. The first DC diagonal output of a bridge worm is through the emitter-collector junction of an output transistor 8 connected to control loudspeakers w thyristor key 3, and through the diode

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20 and the resistor 19 - with the base of the input transistor 9. The base of the output transistor 8 is connected via a resistor 24 to the collector of the input transistor 9, and through a resistor 25 to its own emitter. The emitter of the input transistor 9 is connected to the second output of the DC diagonal of the bridge rectifier. The pins of the DC diagonal of the bridge, the slit miteles are the power terminals of the second block

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The alternating voltage stabilization device operates as follows.

At the beginning of each half-cycle of the input (supply) voltage, the first control unit 6 includes one of the thyristors of the step-down key 2, which works until the ramp voltage of the generator 12 does not exceed the voltage of the sensor 11.

As a result, the input transistor 9 is turned on and through the resistor 24 turns on the output transistor 8, which supplies the voltage from the first output of the diagonal DC current of the rectifier formed by the diodes 15-18, to the control electrode of only that thyristor of the key 3, which has positive potential relative to the cathode. At the same time, resistors 13 and 14, taking into account the internal resistance of the generator 12 of the sawtooth voltage, limit the current through the corresponding control electrode of the thyristor of the thyristor switch 3 and reduce the voltage on the output transistor 8. The current through the control electrode of the corresponding thyristor of the step-up thyristor key 3 flows only during the turn-on time of this thyristor, r, since then the switched-on thyristor shunts the resistive divider 13 and 14, the rectifier on diodes 15-18, transistors 8 and 9, the generators 12, a sawtooth voltage. A series-connected diode 20 and resistor 19 provides for the formation of control pulses with the necessary steepness of the leading edge.

Thus, by switching on the generator 12 of the saw-tooth voltage and the transistors 8 and 9 into the resistive divider circuit 13, 14, not only is their power supplied by the current flowing through the divider, but also

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Bypassing the power when the thyristor is turned on, which creates ideal conditions for resetting the circuit and ensures the reliability and efficiency of the device. At the same time, the basic scheme of the stabilizer is preserved, but there is no need to wind one additional winding of the autotransformer and install the printed circuit board of the panel, which will save material and reduce labor costs.

Claims (1)

Invention Formula An alternating voltage stabilization device containing a power autotransformer, the first output of which is connected to the common bus, the second and third outputs via the thyristor keys of the alternating current of the raising and lowering stages are connected to the second input output, and the fourth output is connected to the second output output, the first a control unit, the input of which is connected in parallel with the thyristor key of the alternating current of the upper stage, and the output is connected to the control electrodes of the thyristors of the alternating current key of the lower step, the second the control unit includes two transistors, a shaping unit, three resistors, and a diode, the input of the second control unit is connected to the auxiliary winding of the power autotransformer, and the output is connected to the control of the thyristor electrodes of the step-up AC key, the emitter of the first transistor is connected to the first power terminal of the second control unit, the collector is connected to the output of the second control unit and through The diode and the first resistor are connected to the base of the second transistor, the base of the first transistor is connected via the second resistor to the collector of the second transistor, and through the TpeTirii resistor to the first power terminal of the second control unit, the emitter of the second transistor is connected to the second power terminal of the second control unit, The formation unit includes a voltage sensor and a sawtooth generator, the voltage sensor input being the input of the node, the formation as well as the input of the second control unit and through you The rim is connected to the auxiliary winding of the autotransformer, the output of the sawtooth generator, which is counter-connected in series with the voltage sensor, is connected to the output of the shaping unit, to which the base-emitter junction of the second transistor is connected, a resistive voltage divider consisting of two resistors, the extreme power supplies connected parallel to the thyristor key of the alternating current of the step-up stage are characterized by the fact that, in order to simplify the circuit and at the same time increase the reliability of the device, A bridge diode rectifier is introduced, the diagonal of the alternating current of which is included in the midpoint gap of the resistive voltage divider, and the diagonal voltage generator of the fusing unit is included in the diagonal of the direct current, while the outputs of the diagonal DC bridge rectifier are the power supply terminals of the second unit management