SU1654956A1 - Dc voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and m. used in the design of secondary power sources. The goal is to increase reliability when working at different load conditions. The device is made according to a half-bridge circuit on transistors 1 and 2, the power circuits of which, together with throttles 5 and 6, are shunted by transistor overload protection circuits. The current through the damping diode 7 (8) is determined by the energy stored in the choke 5 (6) and does not depend on the load. As the load increases (decreases), the current through the damping diode 7 (8) increases (decreases), which ensures the operation of the transistor overload protection circuit both in short circuit mode and in idle mode. 1 Fig.

Description

The invention relates to electrical engineering and can be used in the design of secondary power sources.

The purpose of the invention is to increase reliability when working at different load conditions.

The drawing shows a diagram of a half-bridge voltage converter,

The converter consists of transistors 1 and 2, control circuit 3, capacitive divider 4, reactors 5 and 6, damping diodes 7 and 8, diodes 9 and 10, shunted by resistors 11 and 12, rectifier diodes 13 and 14, capacitors 15 and 16, high-frequency a rectifier with a smoothing filter 17 and blocking diodes 18 and 19.

The pulses from the control circuit are alternately applied to transistors 1 (2). A current flows through an open transistor 1 (2) of the converter and a choke connected in series with it, forming 25 a safe path for turning on the transistor.

When the transistor 1 (2) is turned off, the energy stored in the inductor 5 (6) is transmitted through diodes 13 (14) to the capacitors 16 (15).

ί The next time you open the transistor 1 (2), the capacitor 15 (16) is discharged along the circuit: resistor 11 (12), diode 7 (8), transistor 1 (2). The current flowing through diode 7 (8) ensures the accumulation of carriers in it.

The current through the damper diode is determined by the energy stored in the inductor, which forms a safe path for turning on the transistor, therefore, the time shift created by the shaper of a safe path for turning off transistors does not depend on the load of the converter.

With an increase (decrease) in the load of the converter, the current through the damper diode increases (decreases), which ensures the operation of the driver in both short circuit mode and in idle mode.

Since the proposed scheme ensures the operation of the shaper of safe trajectories in all modes, a higher reliability of the converter is ensured in comparison with the known scheme.

Claims (1)

Claim DC voltage converter, made according to the half-bridge circuit of the Inverter on transistors with external excitation, the connection of the power electrodes of which with the output terminal is made through the inductors of the transistor overload protection circuits, each of which also consists of a capacitor and two counter-connected diodes, one of which is included in accordance with the direction of conductivity of the transistor, it is shunted by a resistor and connected to the capacitor by the first output, while the indicated power electrodes are nzistors are connected to the first terminals of the rectifier diodes, characterized in that, in order to increase reliability during operation at different load conditions, the second terminals of the rectifier diodes are connected to the first terminals of one of the diodes of the opposite arms, and the capacitors are combined with the specified output terminal.