SU594567A1 - Inverter - Google Patents

Description

(54) INVERTER

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The invention relates to the field of electrical engineering and can be applied to secondary power sources of computer and electronic equipment. instrumentation.

Inverters are known in which the through currents of the power transistors are prevented by the control unit 1 and 2. However, the possibility of the through currents B to the inverter with the bridge power amplifier is not excluded.

The two power transistors included in the bridge diagonal may have different resorption times, the decrease in the primary current of the output transformer is accompanied by a change in the polarity of the voltage on its windings, which occurs when the resorption of minor carriers in one of the power transistors is not over. Since the change in polarity of the voltage on the windings stops the blocking signal and permits the switching on of the power transistors of another diagonal, conditions are created for the through current of the power transistors to cause them to fail or reduce the efficiency of the converter.

The closest in technical essence to the proposed is an inverter containing a bridge of transistors, one diagonal of which is connected to the output pins m, and the other is shunted by a capacitive divider and connected to the input pins 1 and the control unit with a common input-output output, controlling the outputs of which are connected to the inputs of the transistors 3.

The aim of the invention is to increase the reliability of the inverter and increase its efficiency. This is achieved by the fact that the proposed inverter is equipped with two additional transformers, the primary windings of which are connected in series and connected to the output terminals, and the common point of these windings

connected to the midpoint of the capacitive divider, extreme ends of the secondary windings are connected via diodes and connected to the inputs of the control unit, and middle ends of the windings are combined and connected to the input output of the control unit.

The principal electrical circuit of the proposed inverter is shown in the drawing. The inverter contains a transistor control unit 1-4, consisting of nodes 5, b of forming pulses, controlling transistors 2, 3 and 1, 4, control node 7, output transformer 8, transformer 9, 10, capacitive divider II, diodes. load 16.

The nodes 5, 6 of the formation of the yiijKjB.I of the lower pulses have an input matching circuit and may have ancestral stages acting on the power transistors. The control unit 7 can contain a generator, a frequency divider, a pulse-width modulus torus. Suppose that the power transistors 1.4 are open and the transistors 2, 3 are closed. The beginnings of the windings of transformers 9, 10 (indicated by a dot) are under positive potential. Diodes 12, 14 are open, and diodes 13 are closed. Node 5 is transmitted through diodes 12, 14 with a positive signal, which prohibits the supply of control pulses to transistors 2, 3. At the end of the working half-period, control pulses are removed from the bases of transistors 1, 4 generated by node B, and the process of resorption and minor cores begins carriers. If this process has ended earlier in transistor 1 and the latter is locked, the voltage on the windings of transformer 9 disappears and diode 12 is closed. However, the blocking signal to the node 5 continues to flow through the open diode 14 from the winding of the transformer 10. After locking the transistor 4, the blocking signal is removed and from node 5 to the transistors 2, 3 unlocking and pulses are applied. On the windings of transformers 9, 10, a reverse polarity voltage appears, diodes 13, 15 are unlocked, and node 6 receives a positive signal prohibiting the supply of control pulses to transistors 1, 4.

Thus, in the inverter, the state of each power transistor is monitored and the supply of control pulses in this half period to the power

transistors and the supply of control pulses in this half period to the transistors of the corresponding bridge diagonal is allowed only after they completely close both power transistors of another diagonal opened in the previous half period, which completely eliminates the appearance of through currents and increases the reliability of the inverter .

Claims (3)

1. Electronics No. 3, 1974, p. 60 2. Electronics No. 8, 1973, p. 67. 3. Basovskiy V.F. Transistor converters, voltages, Kiev, “Technique, 1974, P. 52, fig. 22