SU729773A1 - Transistorized dc voltage converter - Google Patents

Description

The invention relates to the field of converting technology and can be used in secondary power supply units of automation equipment, communications and computer technology for converting a constant voltage of one level to a constant voltage of another level with high quality.

Known transistor DC-DC converters containing power transistors, a control unit, an output transformer, an output rectifier and an inductor introduced into the power circuit of the transistors to limit emissions of power current when switching transistors [1] and (2). The closest to the proposed technical solution is the converter, in which the chokes are included in the emitter circuit of the transistors [2].

The disadvantage of this converter is the increased ripple of the output voltage due to the fact that under the influence of inductance of the inductor, the voltage front applied to the primary winding of the output transformer is littered.

The purpose of the invention is to improve the quality of the output voltage by reducing its ripple.

The goal is achieved by the fact that in a pre-converter containing power transistors, an output transformer, an output rectifier, a control unit and inductors connected in series to the power circuits of the transformers, introduced circuits connected in parallel to the winding of the inductors, each of which consists of a capacitor shunted by a resistor, and a “conducting” direction diode connected in series with 15 of them; which coincides with the conductive direction of the corresponding transistor.

The drawing shows an example implementation of the proposed device with chokes in the emitter circuits of switching transistors.

The DC-voltage converter contains a transformer 1, a control unit 25 2, power transistors and 4 connected by emitters through chokes 5 and b to a common power bus 7.

Parallel to throttle 5 on

3Q chain containing a diode 8, a resistor 9, a capacitor 10, and a throttle 6 a chain of a diode 11, a resistor 12, a capacitor 13. At the output, a rectifier 14 is turned on.

At the moment of switching on one of the transistors, for example 3, the voltage from the bus 7 is supplied to the inductor 5 and the capacitor 10, diode 8, which is additionally turned on. The arising counter EMF in the inductor 5 prevents the passage of power current through the inductor 5, and the current passes through the open transistor 3, the diode 8 and capacitor 10.

During the half-cycle, as the counter-EMF decreases in the inductor 5 and the capacitor 10 charges, the power current is distributed between the additional circuit and the winding of the inductor 5.

The active resistance of the inductor is selected less than the voltage drop across the diode. The diode 8 is turned off, and the capacitor 10 is discharged through a resistor, 9.

When you switch the inverter circuit and turn on the transistor 4, the device operates similarly to the considered.

Thus, a small front of a rectangular voltage and a small ripple of the rectified voltage at the output of the converter are provided.

For protection against overvoltages generated when locking the throttle transistors, using any known means, without affecting the normal operation of the device For instance zener included na ^e-parallel transistors. ''

Claims (1)

Formula of the invention A transistor DC-DC converter containing power transistors, an output transformer, an output rectifier, a transistor control unit and inductors connected in series to the transistor power circuit, which requires that, in order to improve the quality of the output voltage reduce its ripple, parallel to the throttle is on _; a chain consisting of a capacitor ed by a resistor and a diode connected in series with them, the conductive direction of which coincides with the conductive direction of the corresponding power transistor ^pa '