SU201521A1 - TRANSISTOR ELECTRICAL VOLTAGE CONVERTER - Google Patents

Description

Transistor electric voltage transducers are known in which, in order to eliminate through current, the transistors are locked through the diodes from the master oscillator and switched on by their own feedback windings. The range of application of such converters is limited, since in this case much more power is consumed from the master oscillator.

In the proposed device, this disadvantage is eliminated by introducing two intermediate amplifiers, each of which controls two output stage transistors connected on a diagonal. The intermediate amplifiers are controlled through a coincidence circuit from the master oscillator and from the output stage using feedback windings.

The drawing shows the electrical circuit of the Converter.

It contains the output stage of the converter L made according to a bridge circuit on transistors 2, 3, 4, 5, shunted by diodes, with an output transformer 6 in the channel, a cascade of intermediate amplifiers 7, each of which is performed on one transistor 8 or 9 and transformers 10, 11 , the primary windings of which 12, 13 are connected to collector circuits of transistors 8, 9

according to the autotransformer circuit with the use of diodes 14, 15 and resistance 16. The primary windings of transformers provide for remapping their cores in one panlepia. The reverse magnetization reversal of the cores is carried out by the return windings 17, 18, which are connected to the source of electrical voltage via ballasts 19, 20.

Switching transistors 8, 9 is carried out by electron source source through resistance 21, 22. Locking of these transistors is provided by a coincidence circuit on diodes 23, 24, 25, 26 from the output of master oscillator 27 connected to the input of intermediate amplifiers through transformer 28, and reverse voltage connection on the winding 29 of the transformer 6.

The order of operation of the device is as follows.

When the output stage and the intermediate amplifiers are connected to the voltage source and the master oscillator, one of the transistors of the intermediate amplifiers, for example, 9, will be blocked by the output voltage of the oscillator 27 through diode 26; the transistor 8 is turned on through the resistance 21, on the secondary windings 30, 31 of the transformer 10 according to the voltage that will turn on the transistors 2, 3. At the same time, on the winding

through the diode 24 will also lock the transistor 9.

At the end of nOvTynepMOAa, the output at the output of the master oscillator 27 is checked and the ban on turning on the transistor 9 through the diode 26 is lifted. At the same time, the transistor 8 goes up through the diode 25, the output of the transformer 10 changes polarity due to the action of the winding 17, and active locking begins transistors 2, 3. Until the moment they are locked, there is a prohibition to turn on transistor 9, and therefore transistors 4, 5, implemented by the feedback coil 29 of the transformer 6. After the transistors 2, 3 are locked, the transistor 9 which includes transistors 4 and 5. In this manner is avoided

the possibility of end-to-end short circuit across a circuit of series-connected transistors.

Subject invention

A closed-loop transistor voltage transformer according to a bridge circuit using a master oscillator, a coincidence circuit to exclude

through electric currents and an output stage, characterized in that, in order to expand the range of convertible powers, between the driving generator and the output stage, two intermediate amplifiers are introduced,

to the input of which, through the coincidence circuit, the windings of the master oscillator and feedback from the output of the converter are connected.

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