SU1615849A1 - D.c. voltage converter - Google Patents

Abstract

The invention relates to converter technology and can be used to ensure a smooth start-up of secondary power sources. The purpose of the invention is to reduce the power consumed in the inverter circuit during a short circuit and to increase the weight and size characteristics. The invention contains an input rectifier 2, a high-resistance charging resistor 3, a bidirectional key element 4, a control unit 10. In the event of a short circuit in the inverter 7, fuse 1 burns and disconnects the converter from the mains. The key element 4 is turned off, and the discharge current of the filter capacitor 6 is closed through the resistor 3 and the inverter 7. 1 sludge.

Description

The invention relates to a conversion technique and can be implemented to ensure a smooth start of DC inverters.

The purpose of the invention is to reduce the power 5 consumed in the inverter circuits during a short circuit, and to increase the overall dimensions of the converter.

| The drawing shows a diagram of a converter 10 DC voltage.

The converter contains a series-connected fuse 1, an input rectifier 2, a charging transistor 3, a bi-directional key 15 Element 4 with an on-off unit 5, a filter capacitor 6, an inverter 7, an input terminal connected to the connection point of the positive output terminal of the input rectifier 2, a bi-directional key 20 Elements 4 and the first output of the resistor 3, the output transformer 8, the output rectifier 9 with a filter, and a control unit 10 connected by an input to the output of the converter. 25

The converter operates as follows.

When the supply voltage is applied, the filter condenser 6 takes place through a high-resistance resistor 3. At the same time, 30 ¹ inverter 7 does not work and the bidirectional beam element 4 is closed. From the moment of naal. operation of the inverter 7 bidirectional Key element 4 is included by the inclusion node 5. The filter capacitor 6 starts to discharge to the inverter 7 through the open bidirectional key element 4, through which it is also recharged. In the event of a short circuit in inverter 7, fuse 1 blows and thereby disconnects the converter from the mains.

The bi-directional key element 4 is turned off, and the discharge current of the filter capacitor 6 is closed through a high-resistance resistor 3 and an inverter 7, and the maximum value of this current does not exceed the starting current of the converter and does not destroy the resistor 3.

In the event of a short circuit in the inverter, the short circuit current does not flow through the charging resistor, which reduces the power loss in the inverter circuits and allows the use of a charging resistor of lower power.

Claims (1)

Claim A DC voltage converter containing an input rectifier, in parallel with which a chain of series-connected charging resistor and input filter capacitor is connected, the charging resistor is bounded by a controlled key element whose control input is connected to an additional rectifier connected to the additional winding of the output transformer of the inverter by one of the inputs connected to the negative output of the input rectifier, characterized in that, in order to increase the mass barite performance and reduce the power consumed in the inverter circuit when a short-circuit, the second inverter input connected to the positive output of the input rectifier and said controllable switch configured bidirectional.