SU1734177A1 - Ac-to-dc voltage converter - Google Patents

Abstract

Use: The device is applicable as a power source with several output voltages of different values. The invention: the device consists of a single-phase transformer, the secondary winding of which is made with taps 4 (from the middle of its turns), 14, 15, 16,17, to which the rectifiers and the voltage multiplier rectifiers, made on the diodes and capacitors. The invention makes it possible to increase the number of output voltages and improve the use of transformer windings by combining a bridge rectifier circuit with a voltage circuit. Connecting a bridge rectification circuit to the intermediate terminals 14, 15 of the secondary winding of the transformer allows one or two winding sections to be supplied. The connection of the outermost leads 16,17 of the secondary winding through the diodes with an additional output terminal 20 and the capacitor 21 allows the voltage of three sections of the windings to be obtained. Connecting the multiplication bridge circuits to the extreme and intermediate terminals allows to obtain the voltage of seven and four winding sections. 1 il. yo

Description

The invention relates to electrical engineering and can be used to power electronic devices.

A device is known comprising a transformer with a secondary secondary winding, a diode bridge and two capacitors connected in series to the diagonal of the direct current of the diode bridge, the alternating current diagonal of which is connected to the extreme leads of the secondary winding, the middle terminal of which is connected to the point of capacitor connection.

The disadvantage is the need to include additional windings and diode bridges to obtain additional voltages.

The closest is a device containing input, common and output leads for connecting respectively a power source and loads, a transformer, the primary winding of which is connected to the input leads, and the secondary is made with taps, five capacitors, a single-phase rectifier bridge circuit, one output of which is connected to the common output and through the first capacitor with the first output output and with the output of the tap from the middle of the turns of the secondary winding, the other output forms the second output output, and m I am waiting for said output rectifier switched second capacitor, two diode-capacitor multiplier circuit Thorn voltage kazhVI

GO

VI VI

Yes, of which are made according to a bridge circuit and the input of one of them is connected to the input of a diode rectifier, the output of the first voltage multiplication circuit through the first pair of diodes is connected to the third output output connected through the third capacitor to the common output, the output of the second voltage multiplication circuit through the second pair of diodes is connected to the fourth output terminal, connected via a fourth capacitor to a common terminal, and also two diodes, whose cathodes are connected to the fifth output terminal connected to a common terminal through a fifth terminal ensator.

The disadvantage is the need to include additional windings and diode bridges to obtain additional voltages

The purpose of the invention is to enhance the functionality.

The goal is achieved by the fact that in a device containing input, common and output leads for connecting respectively a power source and loads, a transformer, the primary winding of which is connected to the input leads, and the secondary winding is made with tapings, five capacitors, a diode rectifier made according to single-phase bridge circuit, one output of which is connected to the common output and through the first capacitor to the first output output and to the tap of the middle of the turns of the secondary winding, the other output forms the second high In this case, a second capacitor, two diode-capacitor voltage multiplication circuits, each of which is made according to a bridge circuit and the input of one of them is connected to the diode rectifier input, output the first voltage multiplier through the first pair the diodes are connected to the third output terminal connected via a third capacitor to the primary terminal, the output of the second voltage multiplying circuit is connected via a second pair of diodes to the fourth output terminal connected through the fourth condenser The driver to the common output, as well as two diodes, the cathodes of which are connected to the fifth output output connected to the common output via the fifth capacitor, the input of the indicated rectifier is connected to two tapes of the secondary winding of the transformer located on opposite sides of the tap from the middle its turns, with one of the extreme conclusions of the secondary winding of the transformer connected to the first input of the second multiplication circuit

voltage and with the anode of one of these diodes, and the other extreme output of the secondary winding is connected to the second input of the second voltage multiplication circuit and to the anode of the other diode.

The drawing shows a diagram of a device in which transformer 1 is connected to input terminals 2, 3. A branch 4 from the middle of the turns is connected to an output terminal 5 and a capacitor 6, also connected to a common terminal 7. A capacitor 8 is connected to an output terminal 9. Diode rectifier 10-13 is connected with spurs 14, 15 of the secondary winding, the extreme terminals of which 16, 17 through diodes 18, 19 are connected to the output terminal 20 and the capacitor 21. To increase the voltage, the terminals 16, 17 are connected to the multiplication circuit with diodes 22 , 23 and capacitors 24,25. The outputs of these circuits are connected via diodes 26, 27 to capacitor 28 and output terminal 29. A second voltage multiplier circuit with diodes 30, 31 and capacitors 32, 33 is connected via diodes 34, 35 to output terminal 36 and capacitor 37.

The device works as follows.

The terminals 14, 15 through the diodes 12, 13 are alternately connected to the common terminal 7. The capacitor 6 is charged to the voltage of one winding, and the capacitor 8 to the voltage of the two windings. The capacitor 21 through the diodes 18, 19 is charged until the voltage of the three windings. The capacitor 37 is charged up to the voltage of the four windings, since the capacitors 32.33 charged up to the voltage of the two windings are connected in series with the two windings of the transformer. The capacitor 28 is charged up to the voltage of the seven windings, since the capacitors 24, 25 charged up to the voltage of the four windings are connected in series with the three windings of the transformer. To eliminate any voltage, the corresponding elements are eliminated, and to obtain additional voltages, additional multiplication circuits are connected so that the sum of the voltage of the charged capacitor and the corresponding number of windings is equal to the required voltage.

Compared with the prototype, the proposed technical solution allows obtaining a greater number of output voltages, which expands the possibilities of its use.

Claims (1)

Invention Formula AC to DC converter containing input, common and output leads for connecting respectively a power source and loads, a transformer, the primary winding of which is connected to the input leads, and the secondary winding is made with taps, five capacitors, a single-phase diode rectifier bridge circuit, one output of which is connected to the common output and through the first capacitor with the first output output and with the output of the tap from the middle of the turns of the secondary winding, the other output forms the second output This output, and between the indicated outputs of the rectifier, a second capacitor, two diode-capacitor voltage multiplication circuits, each of which is made according to a bridge circuit and the input of one of them connected to the diode rectifier input, output the first voltage multiplication circuit through The first pair of diodes is connected to a third output terminal connected via a third capacitor to a common terminal, the output of the second voltage multiplying circuit is connected via a second pair of diodes to a fourth output terminal connected through a fourth condenser. an output to a common output, as well as two diodes, the cathodes of which are connected to a fifth output output connected to a common output via a fifth capacitor, characterized in that, in order to extend the functionality, the input of the said rectifier is connected to two secondary tapes transformer windings located on opposite sides of a tap from the middle of its turns, one of the extreme ends of the transformer secondary winding is connected to the first input of the second voltage multiplying circuit and to the anode of one of the indicated diodes, and the other extreme end of secondary winding connected to the second input of the second multiplying circuit voltage and the anode of the other diode. 29 o 28Г1 111 R # 2Ј 23. sixteen P one 17