SU964929A1 - Two-cycle transistorized inverter - Google Patents

Description

(5) TWO-TERM TRANSISTOR INVERTER

one:

The invention relates to electrical engineering and can be used in sources of secondary power supply of electronic equipment.

Two-stroke transistor self-exciting inverters with a switching choke are known, containing two power transistors, an output transformer with positive feedback windings connected to the input of the power transistors via limiting resistors and a switching time saturation switch connected between the power transistor bases. Such inverters 5 have high efficiency and have a simple circuit, so that they are the most promising. Loo, however, due to the variation in the parameters of the circuit elements: a transformer, a transistor, and also due to load unbalance, an asymmetry of the inverter pulses occurs, which leads to current increase

magnetizing the output transformer into one of the half-periods of the voltage and, accordingly, to an increase in the collector current of one of the power transistors. This, in turn, leads to a decrease in the efficiency of the inverter and its reliability.

Inverter circuits are known in which this disadvantage is eliminated 23.

However, these inverters are very complex due to the presence of a complex device, carried out (of which the circuit is balanced, i.e., performs an auxiliary function.

The closest in technical essence to the present invention is a device, which is a push-pull transistor inverter, containing interconnected power transformers, a switching choke, a unit that removes load current unbalance of transistors, and control transistors.

The choke is equipped with an additional winding, to which two are connected. anti-parallel connected circuits consisting of a series-connected diode, a resistor and a regulating transistor J of the control circuit of the regulating transistors are connected to the output of the said bla

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However, in this inverter, the balancing device is rather complicated, since it contains a block that detects asymmetry, which itself is rather complicated. The switching choke contains an additional winding, which increases the dimensions of the switching choke and complicates its design. Regulatory chains contain 6 elements. This circuit requires an increase in the inverter control current of the inverters, which reduces the efficiency.

The mentioned short circuits are essential since they lead to the unjustified complication of the inverters due to auxiliary devices, which ensure the balancing of the inverter and to the deterioration of their mass-dimensional parameters.

The purpose of the invention is to simplify the device while improving efficiency.

The goal is achieved by the fact that in a two-stroke transistor inverter circuit containing power transistors, one of whose power electrodes are connected to an output transformer having feedback windings connected through appropriate resistors to control transitions of power transistors and to a saturation throttle associated with a balancing unit, which includes two diodes and a resistor, the diodes are interconnected by one electrodes through the resistor, made adjustable, and the other electrodes s - through said reactor, wherein with respect to controlling the power transistors Yu1chim transitions diodes included in the reverse direction.

The implementation of a three-element balancing device — two diodes and a potentiometer — makes it possible to significantly simplify the circuit while simultaneously increasing the efficiency due to a decrease in power loss in the input power transistor circuits caused by connecting a balancing device, as well as by excluding the unit that detects asymmetry.

The drawing is a diagram of the inverter.

The inverter contains an output transformer 1 with power windings connected to the collector circuits of power transistors 2 and 3, and with positive feedback windings connected Kd to the inputs of power transistors through current-limiting resistors 4 and 5 and switching time setting saturation throttle 6 connected between the bases of power transistors Diodes 7 and 8 are connected to the bases of power transistors in non-conductive (for direct voltage emitter-base) directions. The second terminals of the diodes are connected to the extreme terminals of the potentiometer 9, the middle terminal of which is connected to the emitters of the power transistors.

Inverter - works as follows ..,

As is known, the duration of the half-periods of the operating frequency of a self-exciting inverter with a switching choke is determined by the time of the magnetization reversal of the latter. This time is inversely proportional to the voltage applied to the winding of the choke. In the known inverter circuit, this voltage is equal to the sum of the direct voltage emitter-base of one of the power transistors (open) and the reverse voltage emitter — the base of the other transistor (closed) equal to the feedback winding voltage. In the proposed inverter, the reverse voltage emitter-base of a closed transistor is determined by a voltage divider formed by a current-limiting resistor 4 or 5 and part of a potentiometer 9 connected through an open diode 7 or 8. These circuits do not affect the input circuit. since the corresponding diode 7 or B is closed. By moving the average output of potentiometer 9, it is possible to adjust the voltage of the emitter-base of closed transistors in one or another half-period of the operating frequency and thereby regulate the voltage on the winding of the switching droplet and the time of the magnetization reversal of the latter. This allows you to adjust the duration of the periods, reducing one of them

Claims (1)

Claim A push-pull transistor inverter containing power transistors, one of the power electrodes of which is connected to an output transformer having feedback windings connected through the corresponding resistors to the control transitions of the power transistors and to a saturation inductor connected to the balancing unit, which includes two diodes and a resistor, On the one hand, in order to simplify and increase the efficiency, the diodes are interconnected via the specified resistor, made adjustable, and other electrodes through the specified inductor, and with respect to the control transitions of power transistors, the diodes are included in the opposite direction.