SU1001393A1 - Dc vl-to-ac voltage converter - Google Patents

Description

(C) CONSTANT VOLTAGE CONVERTER TO VARIABLE

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This invention relates to electrical engineering, in particular, to voltage converters.

Voltage transducers on transistors are known in which, in order to increase efficiency and reliability, measures have been taken to reduce the effect of accumulation of minority carriers, which is the reason for the delay in switching off switching transistors and causing an increase in dynamic power loss at switching transistors and reliability of the voltage converter. In addition, the dispersion of the absorption time is not: the main carriers, causing a violation of the symmetry of the pulses of the push-pull voltage converter, leads to a one-sided gnivaniyu core output transformer, accompanied by an increase in collector current of one of the switching transistors. In these voltage converters, the parasitic effect of accumulation of minority carriers is reduced by using a control method using nonlinear feedback between the collector and base circuits through a series-connected diode and a booster voltage source. The commutators of the switching transistors are connected via diodes to the outlets of the series-connected ballast resistor and resistive element, respectively, connected to the outermost outputs between the secondary windings of the control transformers and the bases of the switching transistors. The primary windings of control transformers are connected to the output of a clock generator. The ballast resistors limit the current from

Claims (3)

20 of the clock generator, and the resistive elements create a boost voltage, slightly higher than the saturation voltage of the switching transistors, then determines the threshold of non-linear feedback. In the device; 1 j the function of the resistive element is performed by the opposite and parallel-connected dC1Odes; in the C2J device, a transistor with an auxiliary resistor, and c. device 3 1 ballast resistor. The disadvantages of the known devices are large power losses; when switching commutating transistors. Closest to the proposed DC voltage converter containing power transistors, one of the power electrodes of which are connected to the primary winding of the output transformer, the midpoint of which is connected to one of the input terminals, the other power electrodes are combined and connected to the second input terminal, and the control transitions connected to the control windings, with the jog / 1ector-base junction being connected to the non-linear feedback node. Switching of power transistors occurs in active mode, into which transistors are transferred at the expense of nonlinear feedback node L). The disadvantages of this device are low weight and size indicators due to the presence of multiwinding saturation thrusters. The purpose of the invention is to improve the weight and size parameters. The goal is achieved by the fact that in the DC converter the nonlinear feedback node of each of the power transistors is designed as an auxiliary transistor, the emitter of which is connected to one of the ends of the primary section of the output transformer, the second end is connected to the collector of the corresponding power transistor , the collector is connected through the diode to the base of the power transistor, and the base through the capacitor is connected to the emitter of the auxiliary transistor and The separately connected diode and the first resistor, shunted by the second resistor, are connected to the collector corresponding to the power transistor. The drawing shows a circuit for a voltage converter type inverter-gbtogenerator. The converter contains power i transistors 1 and 2, the collector circuit of which includes the primary winding 3 of the power output transformer, the secondary winding 5 of which is connected to the output terminals of the device. The positive feedback winding 6 is connected through a resistor 7 to the primary winding 8 of the control transformer 9, which is made on the magnetic core with a rectangular hysteresis loop. The secondary windings 10 and 11 of the control transformer 9 are connected through resistors 12 and 13 to the bases of the power transistors 1 and 2. Between the collectors and the bases of the transistors 1 and 2 are included non-linear feedback circuits containing additional windings 14 and 15 placed on the core of the power transformer , diodes 16 and 17 and auxiliary transistors 18 and 19, the bases of which are connected to the time I set 1 1 RC-ije m, performed on capacitors 20 and 21, resistors 22-25 and diodes 26 and 27 When using auxiliary transistors 18 and 19 with low allowable nff well Niemi, parallel to their power chains should include a high-impedance resistors or diodes, high-frequency, a reverse in the operating mode transistors. The contraction of the power transistors 1 and 2 is carried out by the voltage supplied from the secondary windings 10 and 11 of the control transformer 9, which sets the frequency of alternate switching of the transistors of the converter. Suppose that at some point in time the base-emitter transitions of transistors 1 and 2 come from the secondary windings 10 and 11 of transformer 9, respectively, unlocking and locking voltages. Under the influence of these voltages, transistor 1 will enter saturation mode, and transistor, torus 2 - into collector current cut-off mode. Resistor 12 limits the current base of the power switching transistor 1 at the level of. sufficient to keep it in saturation mode. In this mode, a positive voltage is applied to the winding And transformer k relative to the emitters of the transistor 18, which charges the capacitor 20 through the circuit:. 5 Leading up to the half-open state of the switching transistor 1, the voltage coming from the capacitor 20 opens the transistor 18. The latter closes the non-linear feedback circuit that loads the current source controlling the transistor 1. As a result, transistor 1 leaves the saturation mode, as the voltage rises, the collector-emitter reduces the potential difference applied to the non-linear feedback circuit, which reduces the load on the current source controlling the switching transistor 1. The process of exiting and saturation will stall at a predetermined voltage value of the collector-emitter transition defining emom choice magnitude voltage to the coil and, and is maintained up to the moment of arrival at the base-emitter voltage of the switching. transistor 1 locking voltage. When the control signal polarity changes, similar processes take place in the transistor 2 control circuit. During the stay of the power transistor 1 in a locked mode, the nonlinear feedback circuit is prepared for the next operating cycle. During the off-cycle time, the polarity of the voltage on the winding 1 of transformer i changes as a result of which the capacitor 20 is charged by negative voltage through resistor 2. Resistor 22 connected through diode 26 drives the current only in the operating cycle of switching transistor 1 and the value determines the lead time of the output of the switching transistor from the saturating NIN mode. The subsequent change of the mode of the switching transistor 1 and the elements included in its control device repeats the cycles described. 3 Thus, the proposed technical solution allows to improve the weight and size parameters. Claims of the Inverter DC to AC Converter containing power transistors, one of the power electrodes of which are connected to the primary winding of the output transformer, the midpoint of which is connected to one of the input terminals, the other power electrodes are combined and connected to the second input terminal, and the control The transitions are connected to the control windings, and the collector-base transition is connected to the non-linear feedback node, characterized in that, in order to improve the weight and size In this case, the nonlinear feedback node of each of the power transistors is designed as an auxiliary transistor, the emitter of which is connected to one of the ends of the additional section of the primary winding of the output transformer, the second end of which is connected to the collector of the corresponding power transistor, the collector is connected through a diode to the base of the power transistor, and the base through a capacitor is connected to the emitter of the auxiliary transistor and through a series-connected diode and the first resistor, is shunted s second resistor, to the collector of the respective power transistor. Sources of information taken into account in the examination 1. Electronics, 1977, No. 7, p.56. 2. For Japan No. 53-29008, cl. H 02 M 7/537, 1978. 3.-Electronics, 1975, No. 20, p.5. USSR author's certificate number 8l1i «6i, class. H 02 M 7/537, 1979. was