SU1377987A1 - D.c. to d.c. voltage converter - Google Patents

Abstract

The invention relates to electrical engineering, in particular to converter equipment. The purpose of the invention is to reduce the weight and size. To stabilize the output DC voltage of the converter, the principle of amplitude control is used by varying the frequency of the conversion and using properties here to change its resistance of the series resonant circuit from the frequency. 1 il.

Description

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The invention relates to electrical engineering and can be used in the sources of secondary power supply systems of radio engineering, automation and computer technology.

 The purpose of the invention is to reduce the weight and size of the voltage converter.

The drawing shows a schematic of a DC power converter.

The DC / DC converter consists of a master oscillator 1, a push-pull power amplifier 2 with an output transformer 3 whose primary winding A is wound on two cores 5 and 6, the secondary winding 7 connected via rectifier 8 and HC-filter 9 with output the leads and the input of the control unit 10, as well as the control winding 11, connected to the series resonant circuit 12.

The constant-voltage-to-constant voltage converter operates as follows.

When a constant voltage is applied, the generator 1 absorbs the voltage form of a square wave of a given frequency. This voltage is applied to a two-stroke power amplifier 2, amplified and fed to the primary winding A of transformer 3. The current passing through the winding 4 of the output transformer 3 creates a magnetic flux like in the core 5 and in the core 6. The magnetic pulses in the individual cores 5 and 6 induce the EMF in the windings 7 and 11, respectively, the EMF in the secondary winding 7 creates a current in the resonant circuit 12.

The frequency of oscillator 1 is set so that the resonance of the resonant circuit is shifted, i.e. the work is carried out at the decay of the frequency envelope of the resonance.

The emf in the secondary winding 7 generates a current that is rectified by the rectifier 8 and filtered by the inductive capacitive filter 9, and enters the load. The voltage is removed from the load and fed to the control circuit 10. The control unit 10 generates a signal, when the voltage goes beyond the specified limits, to the frequency controlled input of the generator 1. At the same time, the frequency of the generator 1 changes in such a way that The load is returned to its original state, i.e. stabilized. This change in voltage at the load is related to the redistribution of the magnetic flux from the core 5 to the core 6,

Thus, as the load current increases, the voltage across the load decreases. This change in voltage changes and the control unit 10 acts on generator 1 in such a way that a change in frequency approximates

it to the resonance of the circuit 12. At the same time, the resistance of the circuit decreases, the current through the winding 11 increases, the magnetic resistance of the core 5 increases and thereby the redistribution of the magnetic flux from the core 5 to the core 6 occurs. This also increases the EMF value on the winding 7 and, therefore on load.

With increasing load resistance, i.e. as the load current decreases, the voltage across the load increases and the stabilization process repeats.

In this case, the frequency of the generator varies in such a way that it moves away from the resonance frequency of circuit 12.

In the same way, stabilization occurs when the magnitude of

constant transformable voltage source.

The invention makes it possible to increase the reliability of the converter by reducing the number of elements

reduce the weight and size by using one output transformer instead of three in the converter. In addition, the efficiency of the converter is increased by reducing

losses in the transformer windings, as well as the manufacturing labor intensity and the cost of the converter.

Claims (1)

Invention Formula A constant-voltage-to-constant voltage converter containing a push-pull power amplifier with an output transformer, the primary and secondary windings of which are located on a ferromagnetic core, the master oscillator, the output of which is connected to the control input of the power amplifier, and the control input is connected via a control unit output terminals connected via a filter and rectifier to the secondary winding of the output transformer, a series resonant circuit connected to the control winding is different yuschiys that, with In order to reduce the mass and size, a second ferromagnetic core is inserted into the output transformer, on which the control winding is located, while the primary winding of the output transformer is located on two cores simultaneously.