SU1056392A1 - Stabilized voltage converter - Google Patents

Abstract

A STABILIZED VOLTAGE CONVERTER made according to the two-stroke auto-oscillator circuit with a resistor in emitter circuits and the first additional transformer winding connected to the zener diodes, characterized in that, in order to increase the reliability by redundancy, the first additional winding is connected to the inserted lead in the inserted winding by inserting the inserted winding. MI, counter-parallel to the output terminals of the said rectifier, an auxiliary constant voltage source was introduced, made on the second The additional winding and the other rectifier with fuses, the power of the common source is greater than the power of the first additional winding, and the voltage level is lower. S (L; i 7 21 17 ZZ Jg 23/9 Z4 th

Description

The invention relates to electrical engineering, in particular to push-pull transistor converters of direct voltage to alternating rectangular shape. The push-pull transistor converter with redundancy is known. The disadvantages of the converter are the difficulty in increasing mass and size. The closest technical solution to the invention is a stabilized voltage converter, made according to the two-stroke oscillator circuit with a resistor in emitter circuits and the first additional winding of the transformer connected to zener diodes 2. The disadvantage is the lack of reliable protection of the converter in case of a zener diode failure. The aim of the invention is to increase reliability by redundancy. To achieve this goal, in a stabilized voltage converter, made according to a two-cycle oscillator circuit with a resistor in emitter circuits and an additional winding of the transformer connected to the stabilizers, the first additional winding is connected to the zener diodes through an input rectifier with fuses opposite to the output terminals This rectifier introduced an auxiliary source of constant voltage, implemented on the second additional winding and another rectifier with by the guardians, the power of the auxiliary source being greater than the power of the first additional winding, and the voltage level is lower than the voltage level of the said zener diodes. The drawing shows a stabilized voltage converter circuit. The converter contains a push-pull generator 1 (for example, with a resistor in the emitter circuit of transistors), a transformer 2 with an output winding 3 and an additional winding 4 connected via a rectifier. On diodes 5-8 connected in series with fuses 9-12, parallel to the zener diodes 13 and 14, also connected via fuses 15 and 16. An additional voltage source 25 is connected in parallel to the output of the rectifier through diodes 17-20 and fuses 21-24. As source 25, for example, a power amplifier can be used, in the case of using a converter in pulse width voltage regulators. During normal operation, the diodes 17-20 are locked with a higher voltage at Zener diodes 13 and 14. The principle of the converter is based on the stabilization of the voltage on the windings 3 and 4 of the transformer 2 of the two-stroke generator 1 at the time of the breakdown of the Zener diodes 13 and 14. Stabilizers that stabilize the output voltage , simultaneously stabilize the voltage on the auxiliary winding 4 connected via a rectifier on diodes 5-8, connected in series with fuses 9-12, and with the help of a resistor in the emitter circuit stabilize this itternogo current transistors. The transistor becomes after the breakdown of the Zener diode 13, 14 a current source, which, together with the Zener diode 13, 14, performs a rigid stabilization of the output voltage. Additional voltage source 25 has a lower voltage rating compared to the additional winding voltage 4 of the transformer, but greater power , moreover, it is connected via a diode rectifier and fuses 21-24 opposite in parallel to a rectifier on diodes 5-8 with fuses 9-12. In the event of the failure of one of the zener diodes, the voltage at the zener diodes 13 and 14 drops, and an additional source 25 comes into operation, which ensures the burning of the fuse 15, 1 & in the circuit of the faulty zener diode. After that, the normal operation of the stabilized converter is restored. Thus, the proposed stabilized voltage converter has a greater reliability as compared with the known converters and can be widely used, for example, in pulse width voltage regulators with a long service life.

Claims (1)

STABILIZED VOLTAGE CONVERTER, made according to the scheme of a push-pull oscillator with a resistor in the emitter circuits and the first additional winding of the transformer connected to the zener diodes, characterized in that, in order to increase reliability by redundancy, the first additional winding is connected to the zener diodes through the introduced rectifier with fuses, counter-parallel to the output terminals of the specified rectifier introduced an auxiliary source of constant voltage, made on the second will a solid winding and another rectifier with fuses, and the power of the auxiliary source is greater than the power of the first additional winding, and the voltage level is less.