SU752661A1 - Stabilized dc voltage-to-dc voltage converter - Google Patents

Description

one

The invention relates to electrical engineering, to secondary power sources, to provide them with the stabilization and transformation of a constant voltage.

Power sources are known with a key voltage converter stabilizer, comprising a master oscillator, a push-pull power amplifier with fully controlled transistor switches, a pulse-width modulator with a control device, rectifiers and filters, which allow to obtain high efficiency, high stability and low levels of ripple output voltage 1.

The closest technical solution to the invention is a stabilized DC / DC converter containing a master oscillator with a push-pull power amplifier at transistors, the emitters of which are connected to the positive input terminal and the collectors to the extreme terminals of the primary winding of the output transformer, connected to the input terminals. at least one main secondary winding of which is connected to the corresponding output for connecting the load through a power rectifier A secondary secondary winding through

The auxiliary rectifier is connected to one input of the control unit, the other input of which is connected to the outputs of the master oscillator 2.

A disadvantage of the known device is that for obtaining constant output voltages with a sufficiently low ripple, LC filters are turned on after the output rectifiers, which complicates

10 design, especially with a large number of output voltages.

The aim of the invention is to improve the accuracy of stabilization.

The goal is achieved by the fact that, in a stabilized DC / DC converter, the converter is equipped with a choke connected between the middle output of the primary winding of the output transformer and the negative terminal.

20 input terminals, two bit transistors, the emitters of which are connected to the negative input terminal, collectors through additionally introduced diodes connected in the conducting direction,

25 are connected to the extreme leads of the primary winding, and the bases are connected to the extreme leads of the control winding, which is additionally equipped with an output transformer, two And circuits, the first inputs

30 of which are connected to the outputs of the master

generator, the second inputs - with the outputs of the control unit, and the output E Each of the circuits And is connected to the base of the corresponding power amplifier from the transistors.

The drawing shows a schematic diagram of a stabilized DC / DC converter.

The converter contains a master oscillator 1 connected to the input terminals with a push-pull power amplifier on transistors 2 and 3, the emitters of which are connected to the positive input terminal, and the collectors to the extreme terminals of the primary winding 4 of the output transformer 5, at least one primary secondary winding 6i-lp through which the power rectifier 7 is connected to the corresponding output for connecting the load 8, and the auxiliary secondary winding 9 is connected to one input of the control unit via the auxiliary rectifier 10 Locale 11, in addition, the converter is equipped with a choke 12 connected between the middle output of the primary winding of the output transformer 5 and the negative input output, the discharge transistors 13, 14, whose emitters are connected to the negative input output, the collectors are connected through additional input diodes 15, 16 to the extreme leads of the primary winding, and the bases are connected to the extreme leads of the control winding 17, the circuits And 18, 19, and for the first time the inputs of which are connected to the outputs of the master oscillator 1.

The Converter operates as follows.

The generator 1 generates symmetrically np-angle pulses (such as a square wave), which are fed to the first input of the control unit 11, where the feedback voltage from the secondary winding 9 of the transformer 5 is fed through the winding device 10.

The control unit AND generates oscillating-modulated control pulses of twice the frequency, the duty cycle of which depends on the deviation of the magnitude of the feedback voltage from the on-signal one. These pulses arrive at the first inputs of the circuits AND 18, 19, the second inputs of which receive the antiphase impulses of the master oscillator 1. When opening transistor 2 (working stroke), in the additional winding there occurs a deflection of such a polarity that the transistor 13 opens. The diode 15 is locked, i.e., the voltage at its cathode is equal to the voltage at the collector of transistor 2, i.e., “+” of the filament source, and at the anode, “-” of the filament source due to the open collector circuit of the transistor 13.

When transistor 2 (pause) is locked, diode 15 opens, there is a discharge of throttle 12 along the circuit: trampistor 1o, diode 1o, primary suppression 4. The choke of the travel during biasing through the secondary windings bi-b of the transformer 5 switches directly into the load 8. iio pause time both transistors 2 and 3 are closed. In the next cycle, determined by the opposite phase output of the master oscillator 1, transistor 3 is opened, as a result of which transistor 13 is closed, transistor 14 opens, and the further converter works in the same way.

in a way.

Claims (2)

1. Authors certificate of USSR L 251021, cl. H 02M 3/335. 2. Authors certificate of the USSR AO 491941, cl. G U5F 1/64, 1972 (nrototype). lET