SU1451824A1 - Semibridge transistor inverter - Google Patents

Abstract

The invention relates to electrical engineering and m. used in the design of secondary power sources. The goal is to increase efficiency and reliability by reducing losses and peak power when switching power transistors. The device is made according to a half bridge circuit on power transistors 5, 6 and a capacitive voltage divider on capacitors 7, 8. A current transformer 16 is connected to the output circuit. Sinusoidal voltages from the output of the master oscillator 1 through the windings 3,4 of the control transformer 2 are fed to the inputs of the power transistors 5, 6. Priming one of the power transistors 5 or 6 causes current to flow in the current transformer 16 and the load 24. The pulse from the secondary winding 17 current transformer is fed to the base of the same power transistor 5 or 6, accelerating its unlocking. 2 Il. &

Description

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The invention relates to electrical equipment and can be used in secondary power supply and automation systems to convert the residual voltage to AC. The purpose of the invention is to increase the reliability efficiency by reducing losses and peak power when switching power transistors.

Figure 1 shows a diagram of the proposed inverter; Fig. 2 shows timing charts of currents and voltages.

The inverter (Fig. 1) contains a sinusoidal voltage master oscillator 1, a control transformer 2 with secondary windings 3 and 4, power transistors 5, 6, a capacitive voltage divider on capacitors 7, 8, Resistors 10 and 11 with diodes 12 and 13 connected in parallel, and resistors 14, 15 are connected to the emitter circuit. A current transformer 16 is connected to the output circuit of the inverter with secondary windings 17 and 18 connected, respectively, through resistors 19 and 20 to the emitters of transistors 5 and 6, and through diodes 21 and 22 - to the bases of the same transistors, and primary winding 23 connected in series with the load. 24

Half-bridge transistor inverter operates as follows. Sinusoidal voltages from the output of the master oscillator 1 (Fig. 2a) through the control windings 3, 4; transformer 2 and through resistors 10, 11 are fed to the bases - emitter junctions of transistors 5, 6. When one of the transistors, for example, 5, causes current to flow in the winding 23 of the transformer 16 and the load 24.

The pulse from the secondary winding 17 of the current transformer (Fig "26) through the diode 2 enters the base of the same transistor, accelerating its unlocking. Simultaneously, the same pulse through the diode 12 is supplied to the winding 3 of the transformer 2 and through the winding 4 to

opposite polarity is applied to the base of transistor 6, accelerating its locking. The shape of the emitter current of the transistor is shown in FIG. 2c, and the load voltage has the form shown in fig. 2d.

The use of a sinusoidal control signal allows switching the transistors from open to closed and vice versa at low collector currents, and the use of a current transformer 5 connected in series with the load accelerates these processes, forms a safe switching path of transistors and eliminates end-to-end currents, which increases 0 reliability of the converter.

Claims (1)

Invention Formula A half-bridge transistor inverter containing a sine-wave voltage master oscillator, a control transformer, each secondary winding of which through a first resistor is connected to the input of the corresponding Q of the corresponding power transistor, the second resistor included in the emitter circuit of which in order to increase the RCD and reliability by reducing losses and peak power when switching power transistors, a current transformer is introduced, the primary winding of which is connected in series in the output circuit of the inverter An ora, and each secondary winding through an inserted chain of post-ovally connected third resistor and first diode is connected between the base and the emitter of the corresponding power transistor, each first resistor is shunted by a second diode connected oppositely by the conductivity of the input circuit of the power transistor, and the output of the master oscillator sinusoidal voltage is connected directly to the primary winding of the control transformer. five 0 five but. Fah.g