SU964927A1 - Voltage converter - Google Patents

Description

(5) VOLTAGE CONVERTER

 The invention relates to electrical engineering, namely to secondary power sources. A voltage converter is known, which contains transistors and current transformers. A converter with positive current feedback is intended for supplying loads with direct current TI 3 and 2. However, the known converter has the following disadvantages: the impossibility of switching off with a low-current control signal, the autogenerator mode of the device, and the limiting power supply of the switched voltage. The closest technical solution is a voltage converter containing power transistors, auxiliary transistors connected by control inputs to the output of the master oscillator, and a control transformer, the primary winding of which is made with a midpoint, is connected in series with the power electrodes to one of the input terminals of the power supply, and another input terminal through the auxiliary transistors connected to the extreme terminals of the primary winding of the transformer control, the secondary windings of which are connected to the control inputs of the power transistors C3J. A disadvantage of the known converter is that, with a significant increase in load and control signal, a transition of the converter to sparse autogeneration may occur, i.e.: the converter will not turn off. The purpose of the invention is to enhance the functionality of the converter by introducing positive feedback. The goal is achieved by the fact that a current transformer is introduced into the voltage converter,

the two primary windings, each of which are connected in series with the power electrodes of the power transistors and the primary windings of the input output transformer, prevent the secondary windings of the current transformer with one of the opposite terminals connected via diodes to the aforementioned midpoint of the control transformer, and with other divergent leads with the combined power electrodes of the auxiliary transistors

In the proposed converter, the base-emitter junction resistance of the power transistor in the saturation mode, reduced to the primary winding of the auxiliary transformer, should exceed the sum of the resistance of the auxiliary transistor in the saturation mode and the open auxiliary diode connected in series with the latter ten times more.

The drawing shows a diagram of the proposed voltage converter

The voltage converter contains the master oscillator 1, the auxiliary transistors 2 and 3, the control transformer k with the primary windings 5 and 6 and the secondary windings 7 and 8. The direct current source 9 is connected to the output transformer 10 and through the primary windings 11 and 12 of the latter to power transistors Pius using the primary windings 15 and 1b of the current transformer 17. The secondary windings 18 and 19 of the current transformer 17 through diodes 20 and 21 are connected to the common point of the auxiliary transistors 2 and 3. Generally, the primary windings Mie 12 of the output transformer 10 are connected via a resistor 22 to the common point of the primary windings 5 and 6 of the control transformer t. The secondary winding 23 of the output transformer 10 is connected to a load of 2k,

The voltage converter operates as follows.

The master oscillator 1 generates an alternating voltage of a rectangular shape and controls the auxiliary transistors 2 and 3 in such a way that the auxiliary transistor is open in one half period (for example 2) and the auxiliary transistor 3 in the other half period.

through the resistor 22 is applied to the auxiliary transistors 2 and 3.

The secondary voltage from the windings 7 and 8 of the control transformer k enters the base circuit of the power transistors 13 and 1. When the input voltage is applied, the power transistors alternately switch the primary transistors

windings 11 and 12 of the output transformer 10 through the primary windings 15 and 16 of the current transformer 17. The voltage from the secondary windings 18 and 19 of the current transformer 17 through the diodes 20 and 21 is supplied to the primary windings 5 and 6 of the control transformer k. The current of these windings, and therefore, the current

windings 7 and 8 are proportional to the collector current of the power transistors

13 and 14.

The change in the magnitude of the load leads to a change in the collector current of the power transistors 13 and 14.

On the feedback circuit — current transformer 17, diodes 20 and 21, transistors 2 and 3, control transformer k, control inputs of power transistors 13 and 14, the collector current acts on the base circuit of the power transistors, causing a change in the base current, i.e. positive feedback is performed.

Thus, the invention allows for a wider range of loads.

converter and increase the reliability of the converter.

Claims (3)

1. USSR author's certificate No. 603069, cl. H 02 M 3/335 1972; 2. USSR author's certificate number 603068, cl. H 02 M 3/335, 1972. 3. USSR author's certificate number 558365, cl. H 62 M 7/537, 197 ..