SU855896A2 - Transistorized voltage converter - Google Patents

Description

I

The invention relates to electrical engineering and can be used in power supplies of communications equipment, automation and computer technology.

A transistor voltage transducer is known which is designed according to a push-pull circuit.

Two sections of the primary winding of the output transformer of which are used as the windings of positive feedback circuits, and the secondary winding is connected to a full-wave rectifier with a capacitive filter, the converter is equipped with a two-winding switching choke with a core made of a material with a rectangular hysteresis loop, which is included in the bundled choke with a core made of a material with a rectangular hysteresis loop. output transformer-pre. former through diodes and transitions base emitter of transistors P converter

According to the main author. St. No. 568123 is known for a transistor converter, in which the choke and the transformer are provided with additional windings connected oppositely to each other. In addition, these

the windings of the choke and the transformer are connected through a diode-resistive chain 2.

The disadvantage of this converter is an increase in the amplitude of the first harmonic of the rectified and filtered voltage at the 5 output.

The purpose of the invention is to reduce the ripple level at the output of the converter.

Claims (2)

This aim is achieved by vvedeIQ any transistor inverter resistive-diode chain consisting of two counter-serially connected half-wave of antiphase rectifiers with capacitive filtralsh, wherein the input Clem mam chain connected to common connection point of antiphase vshr tifiers, and the output terminals Chains An average point of an unregulated resistive voltage divider, connected to the first through the first harmonic diode, is connected parallel to the output of the first terminal, and with EHD point adjustable divider included through the second diode according included across the output of the second rectifier. The drawing shows the principle: 1 on the electrical circuit of the converter. The converter is a half-bridge containing transistors 1 and 2 and capacitors 3 and 4. In the diagonal of the half-bridge, the primary winding includes a transformer 5. The transistors 1 and 2 are connected to the windings of the transformer 5 through limiting resistors 6 and 7, as well as through circuits of series-connected diodes 8 and 9 and switching throttle 10. The output winding of the transformer 5 is connected to the rectifier 11, and that in turn with the LC filter 12. The converter circuit also includes a resistive-diode chain, which is the amplitudes of the half-periods 13, consisting of two half-wave rectifiers on diodes 14-17, capacitors of filters 18 and 19, separation diodes 20 and 21, as well as adjustable 22 and unregulated 23 resistive voltage dividers, with the input 24 of the chain connected to an additional winding 25 transformer 5, and the output 26 to the additional winding 27 of the switching throttle 10. The device operates as follows. Positive feedback, driven by positive feedback windings of transformer 5 through limiting resistors 6 and 7 to the bases of transistors 1 and 2, leads to the unlocking of transistors (for example, 1) and locking the other (respectively 2). At the same time, the voltage of one polarity (in this case, a positive) is applied to the input winding of the transformer 5. At the same time with the same positive windings of the transformer 5, negative feedback takes place through diodes 8 and 9 and the switching choke 10. The action of this connection does not appear immediately, but after the time determined by the time of switching of the core of the switching throttle 10, after which causes the wound of the open transistor to be locked, the voltage on the input winding of the transformer 5 is inverted following this by the stored energy and unlocking the previously closed transistor. Thus, periodically alternating switching of power transistors allows creating a mixed electromagnetic field in a transformer, due to which energy is transferred from the primary source (network, battery, battery) to the load through the driver 11 and filter 12. The alternating voltage, induced by transformer 5 in additional winding 25, is fed to the input 24 of the resistive-diode circuit 13, where it is rectified with the help of single-wave rectifiers on diodes 14-17, with the rectified half-periods at the output These rectifiers are shifted relative to each other by 180. Filtered using capacitors 18 and 19, the rectified voltage of the same polarity through diodes 20 and 21 and dividers 22 and 23 is fed to the output 26 of the resistive-diode circuit and to the additional winding 27 of the switching throttle 10. The difference between the amplitudes of the half-periods of the switching voltage, if that is, results in a magnetizing current in said winding that changes the ratio of the switching time for transistors 1 and 2 so as to eliminate the difference. As a result, the voltage switching process in transformer 5 becomes symmetrical, which has a positive effect on reducing the ripple level in the load. Dividers 22 and 23 are needed to set the symmetry mode by choosing the magnitude and direction of the initial bias current. Dividing diodes 20 and 21 eliminate the effect of low output impedance of rectifiers on the dynamic characteristics of switching throttle 10. This device, while the converter circuit is not very complex, allows you to suppress the amplitude of the first harmonic at the output 5-10 times, to improve the mode of the rectifier and by 20 -30% cut fil. tra. Claims of the invention Transistor voltage converter according to the aut. St. No. 568123, characterized in that, in order to attenuate the level of pulsations at the output of the converter, the resistive-diode chain consists of two oppositely connected single-half-period antiphase repeaters with capacitive filters, and common connection points of the antiphase rectifiers, aktor, are connected to the input terminals of the chain. the output terminals of the chain are connected to the middle point of an unregulated resistive voltage divider connected through the first according to the connected diode in parallel with the output of the first rectifier And midpoint adjustable divider included through the second diode according included across the output of the second rectifier. Sources of information taken into account in the examination 1. USSR author's certificate number 233072, cl. H 02 M 3/335, 1966. 2. USSR author's certificate N 568123. cl. H 02 M 3/335, 1975. Y fLujT w A AAJlJ with Aju