SU1644338A1 - Dc voltage converter - Google Patents

Abstract

This invention relates to electrical engineering and can be used in secondary power supply sources. The goal is to increase reliability by simplifying the circuit. The converter contains an inverter 1, the power input of which is shunted by a filter capacitor 6 and connected through a two-winding choke 18 and a current limiting resistor 20 shunted by a thyristor 8 to the output rectifier 7. When turned on, the input voltage goes through the input rectifier to the filter capacitor b . The voltage from the first winding 17 through the first rectifier 12 charges the storage capacitor 14. At the same time, the charging time of the driving oscillator of the RC generator 15 starts charging, the pulse of which turns on the voltage regulator 21 and connects the storage capacitor 14 to the power input of the control unit 5, which starts Inverter 1. 1 Il. Yo

Description

The invention relates to electrical engineering and can be used in the sources of secondary power supply systems of radio engineering, automation and computer technology.

The aim of the invention is to increase reliability by simplifying the circuit.

The drawing shows an electrical voltage converter circuit.

The DC converter contains an inverter 1, the output winding of the transformer 2 of which is connected via a rectifier Z. and filter 4 to the output terminals and to the input of the control unit 5. The capacitor b of the filter is connected to the output of the input rectifier 7 through the thyristor 8, the control input of which

connected via a resistor 9 and a third rectifier 10 to a control winding 11. Additional winding 12, connected via a second rectifier 13 to a storage capacitor 14 that shunts the power input of the RC generator 15 and connected to the first winding 17 of a double winding throttle through the first rectifier 16 18, the second winding 19 of which is connected in series with the current limiting resistor 20, the converter also contains a voltage stabilizer 21.

The RC generator 15 is made, for example, on heterogeneous transistors 22, 23, resistors 24-28, capacitor 29 and diode 30.

Voltage stabilizer 21 is made, for example, on transistors of different types 31 and 32.

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The proposed Converter works as follows.

When the DC / DC converter is turned on, the AC voltage is fed to the input of the rectifier 7, rectified through the series-connected resistor 20 and the winding 19 of the double winding throttle 18 to the filter capacitor 6. In this case, the inverter 1 is in the off state, and the outputs of the rectifiers 3, 10, 13 do not have the voltage required to power the control unit 5 of the voltage converter and the thyristor 8.

The alternating charge current component of the capacitor 6 flowing through the winding 19 of the double-winding throttle 18 induces on its winding 17 an alternating voltage with a double supply frequency, which is rectified by the rectifier 16 and charges the storage capacitor 14. The capacitor 29 starts to charge through the resistor 24. After a time interval determined by the parameters of the capacitor 29 and the resistors 24, 25, 28, transistors 22,23 turn on and go into the conducting state. The resistor 26 forms a pulse, which through diode 30 enters the base of transistor 32. Opening transistor 32 leads, in turn, to opening transistor 31 of regulating element of voltage regulator 21. Voltage stabilizer 21 begins its operation, and the energy accumulated on the capacitor supplied to the power inputs of the control unit 5. Turning on the transistors 22, 23 leads to a decrease in the voltage level of the capacitor 29 and the resistor 26. The diode 30 closes, disconnecting the output of the RC generator 15 from the control input of the stabilizer Apr 21

Turning on control unit 5 causes the inverter to start working, appearing at the outputs of the rectifiers 3, 10 and 13 DC voltages. The voltage of the rectifier 13 goes to the capacitor 14, ensuring the operation of the voltage stabilizer 21. The power to the control unit 5 from this moment comes from the inverter 1. At the same time, the voltage from the output of the rectifier 10 goes to the thyristor control input 8. and a low voltage level is established on the winding 19 of a double winding droplet 18. Rectifier 16 stops working.

At the output of the filter 4, a stabilized constant voltage is established which is maintained at a predetermined

the accuracy of the automatic control system, by controlling the opening and closing time of the key elements of the inverter 1. With the switching on the thyristor 8, the energy consumption of the low-frequency rectifier 16 is stopped.

When the control unit 5 turns off the inverter 1 in the event of protection by current or output level, the inverter 1 will not turn on again, because the capacitor 6 is in a charged state and the low voltage level on the capacitor 14 does not allow turn on the RC generator 15, and hence the entire device.

Inverter 1 can be restarted by briefly disconnecting the device from the mains for the time required to discharge capacitor 6, followed by switching it on.

Thus, the introduction of the double-winding droplets 18 simplifies the DC voltage converter circuit and thereby increases its reliability.

Claims (1)

Invention Formula A DC converter containing an inverter, the transformer output winding of which is connected through a rectifier and a filter with output terminals connected to the input of the control unit, the output of which is connected to the control input of the inverter, the power terminals of which are shunted by a filter capacitor, are connected through the thyristor and the input rectifier with input terminals, an RC generator, the power input of which, shunted by a storage capacitor, is connected through the first rectifier to the first winding of a two-winding the throttle and through the second rectifier with an additional winding of the inverter transformer, the control winding of which connected via a third rectifier and a resistor to the control input of the thyristor, a current limiting resistor connected by the first output to one of the terminals of the thyristor, characterized in that increase reliability by simplifying the circuit; a voltage regulator is introduced, the input of which is connected to the power input of the RC generator, and the output to the power input of the control unit, while the start input the voltage regulator is connected to the output of the RC generator, and the second winding of the double winding choke is connected between the second output of the current limiting resistor and the free output of the thyristor.