SU1734176A1 - Ac voltage-to-dc voltage converter - Google Patents

Abstract

The invention can be used as a power source with different output voltages. The essence of the invention: the device comprises a transformer 1 with a partitioned secondary winding. Conclusion 4 of this winding is connected via diode 5 to output output 6, and through diode 5 and capacitor 7 connected in series to common output output 8. To terminals 9, 10 of the secondary winding is connected an input of a bridge diode rectifier, output connected through a capacitor 16c to a common output 8 and output terminal 15. The outputs 17.18 of the secondary winding are connected to a rectifier diodes 19, 20, the output of which is connected to output output 21 and through a capacitor 22 - to output 8, to terminal 18 is connected thyristor 23, and to output 17 - thyristor 24, the cathodes of these thyristors connected to the output terminal 25, and through the capacitor 26 to the output 8. The control electrode of the thyristor 23 is connected via a resistor 27 to the output 17, and the control electrode of the thyristor 24 through a resistor 28c to the output 18. The device is designed to increase the number of output voltages and better use of transformer windings without increasing their number. 1 il. & fe

Description

This invention relates to electrical engineering and can be used to power circuits and other devices that require different voltages for powering.

A device is known that contains a transformer connected by an primary winding to an alternating current network, and a secondary one to a storage capacitor connected to the output and common terminals, and a second storage capacitor connected by one output to the middle terminal of the secondary winding of the transformer and the second output terminal, and the second - to a common conclusion.

The disadvantage of it is the need to include additional windings.

for additional output voltages.

The closest is an AC-to-DC converter containing input, output and common leads for connecting a power source and loads, a transformer, three diodes, a bridge diode rectifier and four capacitors, respectively, with the primary winding of the transformer connected to the input terminals , and its secondary winding is made with taps, the diagonal of the alternating current of the diode rectifier is connected to the extreme terminals of the secondary winding, its output diagonal is connected to one output terminal

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and the other with the first output terminal connected through the first capacitor to the common output, diverting from the middle of the turns of the secondary winding through the first diode connected to the second output capacitor connected to the second capacitor with the common output, two leads of the secondary winding located along different sides with respect to its removal from the middle of the turns, respectively, through the second and third diodes are connected to the third output terminal, through the third capacitor with the common output, and the fourth capacitor is connected between the fourth output th and general conclusions.

The disadvantage of it is the need to include additional windings to obtain additional voltages.

The aim of the invention is to expand the functionality.

The goal is achieved by introducing two thyristors into the proposed device, the cathode of each of which is connected to the fourth output terminal, the anode of the first thyristor connected to the anode of the third diode, the anode of the second thyristor connected to the anode of the second diode, the control electrode of the first thyristor through the additionally introduced the first resistor is connected to the anode of the second diode, and the control electrode of the second thyristor through the additionally introduced second resistor is connected to the anode of the third diode.

The drawing shows a schematic diagram of a device in which the primary winding of transformer 1 is connected to input terminals 2, 3. The secondary winding by middle terminal 4 through diode 5 is connected to the first output terminal b and a capacitor 7 connected to common terminal 8. Extreme terminals 9 , 10 are connected to the input diagonal of the alternating current of the diode rectifier 11-14, in which the diodes 11, 12 are connected to the output terminal 15 and the capacitor 16 connected to the common terminal 8. Taps 17,18 of the secondary winding through the diodes 19, 20 connected Enter output pin 21 and accumulate nym condenser 22. Simultaneously the fingers 17, 18 through the thyristors 23, 24 are coupled to the output terminal 25 and storage capacitor 26, the control electrodes of the thyristors guides through resistors 27, 28 are connected to the anodes of thyristors cross.

The device works as follows.

Extreme terminals 9, 10 through diodes 13, 14 are connected alternately to common terminal 8, and through diodes to output terminal 15 and capacitor 16, which is charged until the voltage of the four windings connected in series. From the average outlet 4

capacitor 7 is charged to the voltage of the two windings. To reduce pulsations, the charge can be carried out through diode 5. Through diodes 19, 20, capacitor 22 is charged until the voltage of the three windings. In order

In order to charge capacitor 26 from these leads to the voltage of one winding, the thyristor control electrodes are connected to the anodes of these thyristors through resistors crosswise. When the output 10 is connected to the common output 8 through 5, the thyristor 23 is turned on through the resistor 27 from the outlet 17, connecting the capacitor 26 to the outlet 18. The capacitor 26 is charged at the same time before the voltage of one winding. Next

0 half period capacitor 26 is charged to

voltage winding with leads 9, 17. From

middle outlet 4 capacitor 7 through the diode

5 is charged until the voltage of the two windings.

Claims (1)

Invention Formula 5 AC to DC converter containing input, output, and common leads for connecting, respectively, a power source and loads, a transformer, three diodes, 0 a bridge diode rectifier and four capacitors, the transformer primary winding is connected to the input terminals, and its secondary winding is made with taps, the input diagonal of the alternating current of the diode rectifier is connected to the extreme leads of the secondary winding, its output diagonal is connected to one common output terminal and the other with the first output pin connected via 0 the first capacitor with a common output, the outlet from the middle of the turns of the secondary winding through the first diode is connected to the second output terminal connected through the second capacitor to the common output, two 5 removal of the secondary winding, located on opposite sides relative to its removal from the middle of the coils, respectively, through the second and third diodes are connected to the third output terminal connected through 0 is the third capacitor with common lead, and the fourth capacitor is connected between the fourth output and common leads, which is due to the fact that, in order to expand the functional possibilities, two thyristors are additionally introduced, the cathode of each of which is connected to the fourth output lead, the anode of the first thyristor is connected to the anode of the third diode, the anode of the second thyristor is connected to the anode of the second diode, the control electrode of the first thyristor through the additionally introduced first resistor is connected to the anode of the second diode, and the control rd electrode of the second thyristor through additionally introduced second resistor connected to the anode of the third diode.