SU982163A1 - Converter - Google Patents

Description

(54) CONVERTER

The invention relates to a conversion technique and can be used in power supplies of electronic equipment. Converters with intermediate conversion to alternating current are known, having an output rectifier with a capacitive filter 11. The closest to the invention is a converter containing a push-pull inverter with a power transformer, the secondary winding of which is connected to rectifying daodas, and the secondary output of the secondary winding is connected to the first input The max output capacitance filter f2. In the specified converters to obtain; low level ripple output voltage applied to the output filters, large capacitors. However, at high switching frequencies and minimal load values in such converters, a single-cycle rectifier mode is possible, this leads to a decrease in reliability and efficiency due to one-sided saturation of the core of the inverter power transformer. - The purpose of the invention is to increase reliability by eliminating the single-ended mode and the efficiency and widening the range of load variation at high switching frequencies by eliminating the single-ended mode. This goal is achieved by converting a two-stroke inverter with a power transformer, the secondary winding of which is connected to intermittent diodes, and the secondary output of the secondary winding is connected to the first input terminal of the output capacitive filter; two additional capacitors and a choke are inserted, each The capacitor is connected between the middle output of the secondary winding and the output of the corresponding rectifying diode, connected respectively to the beginning and end of the choke, the middle output of which is connected to the second terminal of the output filter. FIG. 1 shows the converter circuit; in fig. 2 - temporary voltage and current drawers of converter elements; the converter contains a push-pull inverter 1 with a power transformer, the secondary winding of which is connected to rectifying diodes 2 and 3 and output capacitive filter 4; additional capacitors 5 and 6 connected to the outputs of diodes 2 and 3, connected through the choke 7 to the filter 4 Converter works as follows. Inverter 1 forms a rectangular-shaped alternating voltage at its output, which is in antiphase relative to the middle output of the secondary winding of the power transformer and goes to the rectifying diodes 2 and 3. In the phase corresponding to the conducting state of diode 3, the capacitor 6 is charged. the polarities of the output voltage of the inverter, the capacitor 6 is discharged to the output filter 4 and the load through the corresponding semi-winding of the chokesel 7, and the capacitor 5 is charged through the diode 2. This inclusion of droplets 7 does not allow the capacitor 5 to be discharged into a load during the period under consideration for the period under consideration. Therefore, before the next polarity of the output voltage of the inverter on the capacitor 6 is less than that of capacitor 5. And in the next half-period, the capacitor 5 is discharged to the load, and the capacitor 6 is in charge mode. The operation of the converter is explained in the temporary diagrams in FIG. 2, 1е: u (t) and u (t) voltages applied to diodes 2 and 3, respectively; 1d2 and 1dz are currents through the indicated diodes, U (, 5 and U {, 6 are voltages on capacitors 5 and 6; and, and 1 are voltages on the half windings of W1 and W2 droplets 7. From the diagrams shown, due to alternate The capacitors 5 and 6 of the diodes 2 and 3 are in the conducting state alternately through each popupert, i.e. the power from the inverter goes into the load symmetrically in each half-period, at 9

Claims (2)

This, by appropriate selection of the values of capacitors 5 and 6 and the inductance of chokes 7, this mode can be ensured even with low loads. Thus, the introduction of additional capacitors and droplets into the circuit eliminates the single-ended mode of operation of the inverter and thereby increase the reliability and efficiency of the converter in a wide range of load variation, Formula of the converter The converter containing a two-stroke inverter with a power transformer, the secondary winding patches of the diodes, and the secondary output of the secondary winding is connected to the first input terminal of the output capacitive filter, which is characterized by the fact that, in order to increase reliability by means of There are two additional capacitors and a choke, each of which is connected between the middle output of the secondary winding and the output of the corresponding diode, connected to the beginning of the throttle, the middle output of which is connected to the second input terminal of the output filter. Sources of information taken into account during the examination 1. Yu. K. Zakharov. Voltage converters on semiconductor triodes. M., Military Publishing, 1964, p. 64, fig. 41, p. 70, Fig.47. 2. Romacing E. M-Transistor Transducers in Electronic Apparatus Power Supplies. M., Energie, 1975, p. 63, 68, fig. 2-5. Pui.t