SU1277322A1 - D.c.voltage-to-a.c.voltage converter - Google Patents

Abstract

The invention relates to a converter technique and can be used in power sources of increased power with an adjustment of the number of parallel-connected or series-converting cells. The purpose of the invention is to expand the functionality. The converter contains a push-pull inverter cell 1, a starting block made on an RC-relaxer 2, a blocking diode 4, a pulse transformer (/) C

Description

a mat whose starting winding 6 is connected via diode 7 and control transistor 8 to an input terminal. The oscillations of the generator are broken by shorting the winding 6, When

in the absence of a control signal, the transistor 8 is closed, the capacitor 11 is charged to the threshold value of the unijunction transistor and the relaxer is activated, the inverter is started. 1 il.

Claims (1)

The invention relates to converter technology and can be used in high-power power sources with an adjustment of the number of parallel-connected or series-converting cells. The aim of the invention is to expand the functionality of the device. The drawing shows a constant voltage converter circuit. The converter contains the DE: intact inverter cell 1, the starting block containing RCrelaxer 2 on the unijunction transistor 3, blocking diode 4 to turn off the relaxer 2, a pulse transformer with the first winding 5 and the second starting winding 6, diode 7 to protect the control a transistor 8 and a resistor 9, which simultaneously forms a resistor 10, a divider determining the voltage across the capacitor 11 in the off control circuit of the converter state, the DC / DC converter operates as follows in a way. When the power is turned on, the charge of the capacitor 11 of the relaxer 2 begins. When the voltage on the capacitor 11 reaches the threshold value of the unijunction transistor 3, the latter opens and the discharge current of the capacitor 11, the flow across the winding 6 of the pulse transformer, generates a starting pulse that triggers the inverter. In working condition, the high-resistance resistor 9 eliminates the influence of the winding 6 on the operation of the inverter, the winding 5 of the pulse transformer performs the functions of a switching throttle. When the switching-off control signal of the converter is supplied, the transistor 8 opens and short-circuits the winding 6 through one of the half-turns of operation of the inverter, which leads to the breakdown of oscillations in the inverter. The capacitor 11 is charged up to the voltage determined by the divider across the resistors 9 and 10. The division factor is chosen so that the capacitor 11 is charged to a voltage lower than the release voltage of the relaxer by a small amount. This ensures fast re-start of the inverter. In the absence of a control signal, the transistor 8 is closed, the capacitor 11 is charged before the threshold voltage of the single junction transistor 3 and the relaxer is triggered, and the inverter is started. The proposed device is used with increased circuit power, where it is necessary to turn on and off the inverter with a low-power signal according to a specific program, in particular in power sources with adjustable number of inverter cells connected in parallel or in series. Claims of the Inverter DC to AC converter containing a push-pull inverter cell on transistors of a 5-starter circuit, which includes an RC relaxor on a single-junction transistor, the emitter of which is connected to the midpoint of the RC circuit connected to the input terminals, one of the base electrodes is connected. with the output POWER electrode of one of the transistors through a blocking diode, in order to expand its functionality, a pulse transformer is inserted into it, one of whose windings is connected to the bases 3 12773224 transistors, and the second is connected to the kda with the secondary winding of the pulse one of the input pins through the pos-transformer is connected to the second Consequently, connected again outside the base electrode unijunction The diode and the control transistor, the trazistor, and the second electrode the input of which is connected to the output for the 5 -induced diode is connected to connecting the source of the uni-transient control of the emitter, and the junction point of the resistor through the inserted resis of one of the electrodes of the inserted diode.