SU1636974A1 - Push-pull converter - Google Patents

Abstract

The invention relates to electrical engineering and m. used in the design of V secondary power sources. The goal is to increase the efficiency and reliability of the converter by forcing the locking of the power transistor. The device is designed in accordance with the push-pull circuit of the inverter on power transistors 1 and 2, controlled by isolation transformer 11 by control unit 12. When the supply voltage is turned off, the additional transistor 23 (24) is locked, and the auxiliary transistor 19 (20 ) is unlocked by connecting the input of the power transistor to an additional source lock. 1 il. u Ј ON CO Och O s |

Description

The invention relates to converters of direct current energy at the input to alternating current energy at the output and may find application in the basis of power sources,

The purpose of the invention is to increase efficiency and reliability by forcing the locking of the power transistor.

The drawing shows an electrical converter circuit.

The converter contains an inverter on power transistors 1 and 2, the input of which is connected to input pins 3 and 4, and the output through power transformer 5 to the load 6. Basic circuits of power transistors 1 and 2 are connected to the first windings 9 and 8 10 isolation transformer 11 of the control unit 12, for example, a pulse width modulator. The block voltage source for each power transistor consists of a corresponding second winding 13 (14), which is connected via a diode 15 (16) to a boost capacitor 17 (18). The auxiliary transistor 19 (20) is connected to the base of the corresponding power transistor 1 (2) by the emitter, to the diode 15 (16), which is connected to its base through the first resistor 21 (22) and to the base of the additional transistor 23 (24) connected through the third resistor 25 (26) to the emitter of the corresponding power transistor 1 (2).

The Converter operates as follows.

The control unit 12 generates bipolar width-modulated pulses with a pause at zero. Suppose a positive control signal for wiring on the upper terminal of the winding 9 of the isolation transformer 11. Then a negative voltage level is formed on the lower terminal of the winding 13 and through the diode 15 it charges the capacitor 17. The current flowing through the resistor 7 and the base-emitter junction of the power transistor 1 , opens it, causing current to flow through the primary winding of the power transformer 5, which finds on its secondary winding the voltage applied to the load 6. The transistor 23 is open and in a saturated state due to the current flowing through the circuit: the upper output winding 9 of the transformer 11, the base-emitter junction of transistor 23, a resistor 25, a lower output winding 9.

The saturation of the transistor 23 leads to the appearance on the base of the transistor

19 locking voltage.

At the next instant, a negative front of the control pulse is formed. The transistor 23. having a small time transient, instantly

locked, opens the transistor 19, and the capacitor 17 discharges to the base-emitter junction of the power transistor 1. Since the resistance of the open transistor 19 is small, the resorption of carriers in the base

the power transistor 1 is significantly accelerated and with an appropriate voltage selection on the winding 13 of the transformer 11 can be made arbitrarily small. The magnitude of the resorption current is limited

only valid values for TU.

After the resorption of the carriers in the base circuit of the power transistor is completed, the transistor 1 is closed and the current through the transformer 5 stops. In the second half period

the circuit works in a similar way.

Claims (1)

Claim Invention A push-pull DC / DC converter containing in each arm a power transistor controlling the base-emitter junction of which is connected through the base resistor to the first winding of the isolation transformer of the control unit and through the power circuit of the auxiliary transistor to a boost capacitor connected via a diode to the second winding of the isolation transformer, while the base of the auxiliary transistor is connected to the first output of the first resistor, distinguishing and so that, in order to increase efficiency and reliability by forcing the locking of the power transistor, the second terminal of the first resistor is connected to chke compound booster capacitor and a diode, and a first terminal of the resistor connected to the collector of the additional transistor inputted, the emitter-base junction is injected through the second the resistor is connected to the first winding of the isolation transformer, and the conductivities of the power and auxiliary transistors coincide with each other and are opposite to the conductivity type of the auxiliary transistor.