SU1359867A1 - D.c.voltage converter - Google Patents

Abstract

The invention relates to the field of electrical engineering and may find application in power supply circuits of radio electronic equipment. The goal is to increase reliability by simplifying. The converter contains a push-pull power amplifier 1 on transistors 2 and 3 with current proportional control through transistors 12 and 13 from control unit 11. To obtain a proportional current lock on transistors 2 and 3, an additional current transformer 21 is used, the signal from which is supplied through diodes 22, 23 to capacitors 17 and 18. As the load current increases, the charge current of the capacitor 17 and 18 increases, which leads to an increase in their voltage. At the time of opening one of the control transistors 12 Vani carriers in the base of power transistor 2 is increased, which ensures its reliable locking, 1 yl. with (/) 00 ate (X 00 O5

Description

The invention relates to electrical engineering and can be used in secondary power supply and electric drive systems for converting DC voltage.

The purpose of the invention is to increase reliability by simplifying the device.

The drawing shows a schematic diagram of the proposed Converter,

The DC / DC converter contains a push-pull amplifier.

Inputs made on power transistors 2 and 3 with individual current transformers 4 and 5 with control windings 6 and 7, respectively. Output transformer 8 through rectifier 9 and a smoothing filter LO connected to outputs for connecting the load and to the node input

I1 controls, for example, a pulse-width modulator, the output of which is connected to the bases of control transistors 12 and 13. The emitters of the transistors are connected to one of the terminals of the auxiliary power source 14, the second terminal of which is connected to the first terminals

forming capacitors 17 and 18. In addition, the first terminals of capacitors 17 and 18, the control windings of transformers 4 and 5, and the limiting resistors 19 and 20 are connected to the collectors of the control transistors, the auxiliary current transformer 21 is connected to the primary winding of the output transformer 8 , the middle point of its secondary winding is connected to the second terminals of the capacitors 17 and 18, and the extreme leads through the diodes 22 and 23 to the first terminals of the capacitors 17 and 18.

The converter works as follows

The control unit 11 generates opto-modulated pulses shifted relative to each other by 180, arriving at the bases of control transistors 12 and 13. The transistors switch and, through the windings 6 and 7 of the control of the current transformers 4 and 5, control the operation of the power transistors 2 and 3 power amplifier 1 in such a manner that the output voltage of the converter is maintained at a predetermined level regardless of external destabilizing effects.

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Consider the established mode of operation when the transistors 12 and 13 are closed, the transistor 13 is open and the operating current pulse passes through the power transistor 2 of the power amplifier 1.

When a positive control pulse arrives at the base of transistor 12, the latter opens through the winding 6 of the current transformer 5 along the circuit: the first lead of the capacitor 17, the winding 6 of the transformer 4 of the current, resistor 20, transistor 12, the second lead of the capacitor 17 - the current starts to flow which causes the negative current pulse to appear through the base of the transistor, which ensures the accelerated resorption of carriers and the fast locking of the transistor a 2. The current is determined by the voltage across the capacitor 17 and the value of the resistor 20. Upon termination of carrier resorption in the base, transistor 2 is locked.

The capacitors 17 and 18 are charged by the load current of the converter, transformed by the current transformer 21. As the load current increases, the charge current of the capacitors 17 and 18 increases, which leads to an increase in their voltage. When one of the control transistors is opened, for example, 12, the resorption rate of the carriers in the base of the power transistor 2 increases, thus ensuring its reliable and timely locking.

Further, the magnetization reversal of the i-core of the current transformer is carried out from the auxiliary power source 14 through the resistor 15.

Upon termination of the control pulse, transistor 12 closes20

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c and the energy stored in the inductance of the current transformer 4 is transformed into the base of transistor 2, opening it. Further, the open state of transistor 2 is maintained due to the positive feedback that occurs when current passes through the emitter winding of the corresponding current transformer. The operation of the device in the other half period is carried out in a similar manner.

The change in the resorption current of the carriers in the base of the power transistors is proportional to the load current, pos.

It will ensure their reliable locking in all operating modes, which increases reliability,

Formula of the invention A DC / DC converter containing a push-pull power amplifier in power transistors with individual positive feedback current transformers, the control winding of each of which is connected to the first output of the forcing capacitor and through a resistor to the first output to connect an auxiliary power supply, and another output via a control transistor with a second output forcing capacitor and a second output for connecting the auxiliary power supply, and an additional current transformer, the primary winding of which is connected in series to the power circuit of the power amplifier, and the secondary is provided with a diversion from the midpoint connected to the second output

forcing capacitors, and connected by extreme leads to diode anodes, characterized in that, in order to increase reliability

by simplification, the cathode of each of the diodes is connected to the first output of the corresponding forcing capacitor.

Claims (1)

Claim A DC-voltage converter containing a push-pull power amplifier on power transistors with individual transformers of 10 positive feedback currents, the control winding of each of which is connected with one terminal to the first terminal of the boost capacitor and, through a resistor, with the first terminal for connecting an auxiliary power source and another terminal through a control transistor 1359867 4 with a second terminal of the boost capacitor and a second terminal for connecting an auxiliary source pi ₅ voltage, and an additional current transformer, the primary winding of which is connected in series to the power circuit of the power amplifier, and the secondary is made with a tap from the midpoint connected to the second terminal of the boost capacitors, and is connected by the extreme terminals to the anodes of the diodes, characterized in that, in order to improving reliability by simplifying the cathode of each of the diodes is connected to the first output of the corresponding boost capacitor,