SU1317599A2 - D.c.voltage-to-d.c.voltage converter - Google Patents

Abstract

The invention relates to a converter equipment and can be used in a secondary power supply system and is a further invention to the authors. St. No. 570162. The introduction of an additional winding 20 of the transformer of the master oscillator 1 through the introduced rectifier 21 and the choke 22 provides protection for the converter by disrupting oscillations in the master oscillator 1 and disconnecting the load 17. The voltage on the winding 20 is chosen to be slightly smaller than on the output windings of the power amplifiers 2 and 9. This allows normal operation of terminal 21 to be closed and not interfere with operation. The choke 22 at the time of switching on is a current delay element providing a start. 1 il. SL 00 EAT CO)

Description

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The invention relates to a converter and electrical engineering and can be used in secondary electrical power supply systems for converting a DC voltage of one level into a voltage of another level. .

The purpose of the invention is to protect the converter against load short circuits.

In the drawing of the circuit is a schematic diagram of the converter.

The converter contains a master oscillator I, a power amplifier 2 with feedback windings 3 and 4, transistors 5 and 6, control windings 7 and 8, an additional power amplifier 9, which also has feedback windings 10 and 11 and transistors 12 and 13 , rectifier I4, additional rectifier 15, volt-an additional source 16 and load 17 In this case, windings 3, 4 and 7, 8 are located on the core of the output transformer 18, and windings 10 and 11 are on the core of the transformer 19. Additional winding 20 transformer master oscillator 1 through entered - rectifier 21 and choke 22 are connected to load 17.

The Converter operates as follows.

When the input voltage is applied, the master oscillator 1 and the power amplifiers 2 and 9 are started, the supply voltage to which is fed through the booster supply 16.

A line voltage sufficient to open, for example, transistor 5, is opened and transistor 13 is connected to which unlocking voltage is applied from transformer 18 of power amplifier 2 via winding 7. When the transistor 5 is closed, the polarity of the voltage across the winding 7 changes, which becomes locking.

However, the transistor 13 at the time of resorption of carriers from the base remains open. This causes a parametric phase shift between the output voltages of the power amplifiers. The feedback windings 3 and 11, respectively, keep the transistors 5 and 13 closed for carrier dissipation times at unlocking voltages on the control windings.

Since rectifiers 14 and 15 are connected in parallel,

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wiring of carriers from the base of the transistor is longer than its switching time, the voltage on the load does not have ripples as a result of

5 rectified voltages from rectifiers 14 and 15.

In addition, when switching the transistor 5 of the power amplifier 2, the output load is subconnected to the additional power amplifier 9, and when the transistor 13 of the additional power amplifier 9 is switched, the load is connected to the power amplifier 2, which

 5 reduces switching losses, increases the output power and efficiency, as the switching takes place at de-energized transistors.

0 Accordingly, when switching transistors 6 and 12, the control of the additional power amplifier 9 is carried out using the control winding 8. In this case, windings 4 and 10

the feedback keeps the transistors 6 and 12 closed at the time of resorption of the carriers at unlocking voltages on the control windings. Additional winding voltage

0 20 is chosen slightly smaller than | On the output windings of power amplifiers 2 and 9, therefore, during normal operation, the rectifier 21 is closed and the winding 20 is disconnected from the load 17.

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The choke 22 at the time of switching on is a current delay element that drives the master oscillator 1 from the load 17, ensuring

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When an emergency mode occurs, when there is a short-circuit load, the output voltage drops

and the winding 20 of the master oscillator 1 through the rectifier 21 and the choke 22 is connected to the load 17, which leads to a breakdown of oscillations in the master oscillator and, therefore, in the power amplifiers 2 and 9.

This is how the converter is automatically protected against load short-circuits. In this case, the converter automatically restores its performance when the emergency mode is eliminated, which makes it more difficult to apply.

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Claims (1)

The claims of the invention are less than the voltage value of the transducer of the constant voltage of the output transformers of the amplification to the constant value of the auth. Holy power, and the input is entered No. 570162, the differing end of the miter is connected to the ends of the dopol, that, in order to protect against short 5 volt windings, and the output of the load terminals entered, the rectifier was inserted into it through successively choke, rectifier and additional-connected choke is connected to the transformer winding to the control terminals for connecting the nagenerator, the voltage value of which is limited.