SU1056406A1 - Two-step transistor inverter - Google Patents

Abstract

A TWO-SHORT TRANSISTOR INVERTER containing a transistor in each arm, a koiToporo control transition connected to the feedback winding of the output transformer, after ;; ovatively connected through a resistor to the external control winding of the master oscillator, so that, for the purpose of increasing the efficiency reliability by eliminating through currents, the connection point of the feedback winding and a resistor is connected to the first output winding of the external control connected to the power electrode of the transistor, through the input diode, and the second terminal of the external control winding coupled to the transistor base inserted through the second diode, the direction of conduction of both § D11, odov | counter to the direction of conduction of the transistor. eat oh

Description

The invention relates to electrical engineering and can be applied in secondary sources of electrical power for electronic equipment, as well as in systems of guaranteed power supply using static converters.

Known inverters, made with external excitation, which provides for measures to eliminate through-currents l.

However, in such devices, the total power of the transistor control is taken from the master oscillator, and in some cases it constitutes a rather significant part of the output power, therefore, the device has a low efficiency. ,

A half-bridge inverter is known, containing a capacitor divider generator, a terminal transformer connected between a capacitor divider and a common thin connection of two transistors, and the control circuit of each transistor consists of a coil of a master oscillator with a Resistor connected in series. Moreover, parallel to the base-emitter-i-junction transition to the winding of the output transformer with diode C2 J.

The disadvantage of this inverter is that all the transistor control power is consumed from the control circuit. In addition, D (L) prevented the output from the ctpoa transistors of the inverter when k 3. at the output, you must have a fast-acting protection ,.

Closest to the invention is a push-pull transistor inverter, which contains in each arm a transistor, the control junction of which is connected to the winding of the coupling of the output transformer, connected through the resistor K to the external control winding of the master oscillator tSJ.

The disadvantages of this technical solution are low efficiency and low reliability, due to the presence of through currents.

The purpose of the invention is to increase efficiency and reliability by eliminating through-current converter.

Postavlyaen goal is feM that in two-stroke transistor inverter the connection point of the feedback winding and the resistor is connected to the nepBfcW terminal of the external control winding connected to the power

by the electrode of the transistor, through the input of the first diode, and the second output of the external control winding is connected to the base of the transistor through the second input diode, and the conduction direction of both diodes is opposite to that of the transistor.

The drawing shows a schematic diagram of the proposed device.

The inverter is made according to a half-bridge circuit with a capacitive voltage divider on capacitors 1 and 2 connected to transistors 3 and 4, an output transformer 5 connected to the load 6 is connected to the diagonal of the alternating current of the inverter. The control circuit of each transistor consists of winding 7 (8) : its generator 9, base resistor 10 (11), windings 12 (13) feedback and two diodes 14 and 15 (16 and 17).

Suppose that at some point transistor 3 is open and transistor 4 is closed. At the same time, the beginnings of the windings of the master oscillator and the output transformer (indicated by a dot) are under positive potential. All the diodes are locked, an opening voltage is applied to the base of transistor 3, and a closing voltage is applied to the base of transistor 4. After changing the polarity of the voltage on the windings of the master oscillator, the diode 14 is opened, the base of the transistor 3 is applied for 1p, the voltage from the winding 7, and begin the process of resorption of the basic Carriers, during which the transistor 3 continues to settle in the saturation state therefore, the polarity of the voltage across the windings of the output transformer does not change. Transistor 4 continues to remain closed due to the presence at its base of negative voltage from the winding 13 of the output transformer. After completion of the resorption process, traisis- closes. torus 3, the polarity of the voltage on the windings 12 and 13 of the feedback varies, and the transistor 4 is changed by the sum of the voltages on the windings 8 and 13. In the next half period, the processes are repeated.

In this way, the on state of each transistor is monitored in the inverter, thereby eliminating the through currents, reducing the power of the master oscillator in mode k, g,

Claims (1)

Push-pull transistor, the inverter comprising a transistor in each arm, a control passage which is connected to the coil reverse connection _parts hydrochloric output transformer! Sequentially connected through a resistor to the coil of the external control oscillator of tlichayuschiysya in that, in order to increase the efficiency and reliability by exclusion of through currents, 'the connection point of the feedback winding and the resistor is connected to the first terminal of the external control winding connected to the power electrode of the transistor through the first diode,, and the second output of the external control winding is connected to the base of the transistor through the second introduced diode, moreover, § the direction of conductivity of both deads; counter to the direction of conductivity of the transistor. I IN V 90t9SOl i