SU1160514A1 - A.c.voltage-to-d.c.voltage converter - Google Patents

Abstract

.one. AC VOLTAGE TRANSMITTER TO PERMANENT, with a group of transistors, an op, in the form of a triohistoric transistor, transfsf MkTop with secondary windings, neutral, resistors and the first diode, with an ampere, apros; output output, general database output. attached to the output of the resistor, and each emitter is adapted to the corresponding output of the secondary windings, characterized in that, in order to improve the efficiency and to improve the mass and weight fuses, it has been additionally introduced. to zdesh: atsf, one terminal connected to nitrate, and the other to the free output of a resistor and one output of the secondary from the coil through the first diode. 2. The pre-uowatt according to claim 1, that is, and that with the addition of at least one more diode, including between the ladder and the output of the next VTs winding. (About with: L7

Description

The invention relates to electrical engineering and can be used as secondary power sources for apektro and radar tours.

The purpose of the invention is to increase efficiency and 5

improvement of mass-size PBK5a1 device device-; :

The drawings show a circuit diagram of a converter.

The variable-voltage converter O to constant contains a multi-mittresistor 1 with emitters 2-7, a collector 8 with base 9, a transformer 10 with secondary windings 11-16 and a neutral 17, a resistor 18, the first diode 19, additional diodes 20 15 and 21 and a capacitor 22. Emitters 2-7 are connected to secondary windings 11-16, respectively. The capacitor 22 is connected to the neutral 17, the resistor 18 and the diodes 19-21. The last anodes are connected to pins 23-25 of 20 secondary windings 13, 12 and 11, respectively. A load 28 is connected to the output ports 26 and 27.

The device works as follows. 25 When connecting the transformer 10 to. The mains capacitor 22 is charged through diodes 19-21 with a positive polarity sufficient to bias the emitter-to-base transistor 1 in the z-direction. This voltage is summed with the voltage of the secondary windings 1116 of the transformer 10 and is applied to the transitions of the zmitters 2-7 and the base 9 of the transistor 1, unlocking them alternately. For the period of the network open-. All six transitions of the zmitter-base of the transistor 1, which is saturated by the current flowing through the resistor 18. At the same time, a constant voltage is formed at the output terminals 26 and 27 and the load 28. The presence of a constant voltage across the capacitor 22 ensures reliable spreading and saturation of transistor 1 at low levels of transformable eg: zhrysh, comparable, for example, with the unlock voltage of the zmitter - transistor 1 base. In order for the converter to function properly, diodes 19-21 must have unlock voltage equal to or less than i voltage unlock the zmitter-base transitions.

In this way, the losses in the converter can be significantly reduced at low levels of transformable voltages.

With an odd number of phases of the voltage being converted and the presence of diodes 19-21, the forced magnetization of transformer 10 is partially compensated by counter magnetization due to the current flowing through diodes 19-21, which reduces the typical power of transformer 10. With an even number of phases, there is no negative bias if the number of diodes equal to the number of phases.

As an example, we consider a converter with a bmiter transistor. It is possible to choose with a differential number of zitters, depending on the number of phases of the voltage being converted. Instead of a Multi-Sist transistor, its analogue from ordinary (single-S) transistors or a multi-collector transistor in inverse switching can be used.

The number of diodes can be chosen equal to the number of phases of the voltage being converted.

Claims (2)

.1. AC VOLTAGE CONVERTER TO CONSTANT, containing a group of transistors made in the form of a multi-emitter transistor, a transformer with secondary windings having a neutral, a resistor and a first diode, while the common output of the collectors forms the first output output, the neutral - the second output output, the general output of the bases. attached. to the output of the resistor, and each emitter is connected to the corresponding output of the secondary windings, characterized in that, in order to increase the efficiency and improve the overall dimensions, a capacitor is additionally introduced, which is connected to the neutral via one output and to the free resistor output and one output to the other secondary winding through the first diode. 2. The converter according to π. 1, due to the fact that at least one more diode is additionally introduced, connected between the capacitor and the output of the next secondary winding. S SU „„ 1160514