SU680116A1 - Dc-to-dc converter - Google Patents

Description

To do this, a DC to DC converter containing a power thyristor connected to the input and output terminals, connected in series with the primary winding of the switching throttle, switching capacitor and thyristor, connected to the secondary winding of the switching throttle, as well as the subconductor switching circuit of the capacitor, the second switching thyristor is additionally introduced, and the secondary winding of the throttle is made with an average output, whereby the switching capacitor is connected between the middle output Drottles and a negative input terminal, one of the extreme terminals of the winding, the throttle is connected to a negative input terminal through the first switching thyristor connected in the opposite direction, and the other through the second switching thyristor connected in the forward direction, and the positive input terminal and the middle winding point Drossel connected through a charge thyristor.

The drawing shows the proposed Converter.

It contains a power thyristor 1, a switching choke 2 with a primary 3, secondary 4, 5 and an additional 6 windings, switching capacitor 7, which connects thyristors 8, 9, a charge resistor 10, additional diode 11, load 12. The converter operates as follows B In the initial state, the initial magnitude of the capacitor 7 has the polarity indicated in the drawing. When unlocking the thyristor 1 current flows through the load circuit. The thyristor 8 is unlocked to lock the thyristor, and the voltage of the capacitor 7 is applied to the secondary winding of the throttle 2. This voltage is transformed into the primary winding so that a positive potential is applied to the cathode of the thyristor 1. In this case, the thyristor 1 is spelled, and the capacitor 7 is transmitted through the winding 4 of the throttles 2 to a voltage whose polarity is opposite to the initial one, and the value depends on the load current. The process of recharging is cleared when the current of the recharging circuit decreases to zero, and the thyristor 8 is locked.

During the next cycle of operation of the converter, power thyristor I is re-opened, however, this thyristor 9 is locked for this. In this case, the voltage of the capacitor 7 is applied to the winding 5 of the throttle 2, which also leads to the locking of the fistor 1. At the end of the recharge process it is locked, and a voltage is established on the capacitor 7, having the polarity indicated in the drawing.

With high load currents, the voltage on the switching sensor can reach a considerable value. To limit this voltage at some level, an additional / negative winding 6 throttle and diode P. Diode I is unlocked when the voltage of the capacitor 7, reduced to winding 6, becomes equal to the voltage of the power source. Thereby, the voltage across the capacitor is limited at a predetermined level.

Thus, the use of push-pull re. The operation of the switching capacitor avoids idle recharging and thus increases the efficiency of the converter. In addition, a 2-fold reduction in the recharging frequency of the sensor as compared to the frequency of operation of the thyristor 1 makes it possible to improve the weight and size characteristics of the converter due to a more complete use of the installed capacity of the capacitor.

Claims (1)

Claim 1, DC to DC converter, containing a power thyristor connected to the input and output terminals, connected in series with the primary winding of a switching drossel, switching capacitor and thyristor connected to the secondary winding of a switching throttle, J, also a podzar da circuit a switching capacitor, characterized in that, in order to improve the weight and size parameters and increase the efficiency, a second switching thyristor is additionally introduced in it and the secondary winding The villages are made with an average output, the Ufich switching capacitor is connected between the middle lead of the throttle winding and the negative input lead, one of the extreme leads of the winding of the throttle is connected to the negative input lead through the first switching thyristor connected in the opposite direction in the forward direction, and the positive input terminal and the middle point of the winding of the throttles are connected via a charging resistor. 2 “The converter according to claim 1, which is connected with the fact that the switching choke has an additional winding connected via a diode to the input terminals of the converter. Sources of information taken into account u) and expertise 1, USSR Author's Certificate No. 274215, cl. H 02 M 3/135, 1970. 2, Birznieks L.V., Pulsed direct current shaper. M., Energii, 1-74, with. 182, fig. 8-2,6,