SU935925A1 - Power source - Google Patents

Description

(5) POWER SOURCE

I

The invention relates to electrical engineering and can be used in power supply systems for automation devices and computer technology.

A power source is known, which contains a voltage converter, made by a half bridge circuit on two transistors, two capacitors, a switching transformer, two positive feedback windings of which are connected through base resistors in parallel to the zmitter transitions of these transistors, output rectifier with filter 1.

Its disadvantage is low frequency stability and asymmetry of the converter operation.

A power source is known, the control unit of which ensures the symmetrical operation of converter 2.

However, this source is very complex.

The closest in technical essence to the invention is a power source containing a converter, made according to a half bridge circuit on two transistors, two capacitors and a power transformer, two positive feedback windings of which are connected to the transistor inputs of the converter through the output resistors

10 is a rectifier with a filter connected to the secondary winding of the power transformer, as well as a master oscillator with a control transformer, the secondary windings of which are connected to the input of the transistors of the converter 3.

Claims (3)

Its disadvantage is the asymmetry of the converter operation (this is due to scattering of the parameters of the transistors of the converter) and, therefore, a high level of output voltage ripple, as well as low reliability. much higher than half the input voltage). The purpose of the invention is to reduce the n level of the output voltage ripple and increase the reliability of the source by balancing the operation of the converter. The goal is achieved by the fact that in the power source the master oscillator is made on a multivibrator with collector-base connections, the outputs of which are connected to the primary windings of the control transformer, a differential amplifier is inserted, the inputs of which are connected to the middle points of the two resistive voltage dividers, the first of which connected to the input terminals in parallel, and the second parallel to one of the capacitors of the converter, with the outputs of the specified differential amplifier connected to the base m transistors multivibrator. The drawing shows a circuit diagram of the power source. The power supply includes a half-capacitance converter for transistors 1 and 2, capacitors 3 and A ,, the output transformer 5, equipped with two positive feedback feedback coils 6 and 7, in series with which the basic resistors 8 and 9 are connected, the output rectifier 10 s filter 11 connected to load 12, a master oscillator on a multivibrator consisting of transistors 13 and 1A, four resistors 15-18, two diodes 19 and 20, two capacitors 2-1 and 22, controlling a transformer 23, a front winding with zero output of which is an extreme taps n Connected to the collectors of transistors 13 and 1, and the secondary windings 2k and 25 are connected via diodes 26 and 27 to the bases of transistors 1 and 2, the differential amplifier i-body on transistors 28 and 29 and resistor 30, voltage resistors motor 31 and 32 and voltage divider on resistors 33 and 3. The power supply operates as follows. The multivibrator on transistors 13 and 14 forms a rectangular alternating voltage on the windings 24 and 25, which affect the control circuits of transistors 1 and 2 through diodes 26 and 27 alternately fills transistors 1 and 2 (the unlocking of transistors 1 and 2 occurs due to . The current of positive feedback 6 and 7 on the principle of operation of self-excited oscillators). In this case, a alternating voltage is formed on the secondary winding of the transformer 5, which is rectified with the help of rectifier 10, smoothed by filter 11 and applied to the load 12. The resistances of the resistors 16 and 17 are equal. The resistance of the resistors 31-3 of the voltage dividers is chosen so that, with equal voltage across the capacitors 3 and 4, the voltage drop across the resistors 32 and 3 is equal. In this case, the collector currents of transistors 28 and 29 are equal. At the same time, the charging time of the capacitor 21 (the closed state of transistor 13) is equal to the charging time of the capacitor 22 (the closed state of transistor 1), i.e., the half-time of the control voltage are equal. Consider the case when the half-periods of the output voltage of the converter are not equal to each other, let's say the duration of the open state of transistor 2 than transistor 1 as a result of the spread of parameters of transistors 1 and 2 or asymmetry windings 6 and 7, as a result of which transistor 2 absorbs excess charge in the base in comparison with transistor 1, which leads to asymmetry. In this case, the voltage on the capacitor A decreases, and on the capacitor 3 it increases. This decreases the voltage drop across the resistor 3, which leads to an increase in the collector current of transistor 29 and a decrease in the collector current of transistor 28. Consequently, the charging time of capacitor 22 (the closed state time of transistor 13) decreases, and the charging time of capacitor 21 (time The closed state of the transistor 14) increases. Since the turn-on of the transistor 13 causes the transistor 2 to turn off, and the turn-on of the transistor 14 causes the transistor 1 to turn off, respectively, the open state of the transistor 2 decreases and the transistor 1 increases. Thus, the proposed technical solution allows for automatic balancing of the operation of the converter and, therefore, to reduce the level of output voltage ripple, as well as to increase reliability, since it eliminates the possibility of exceeding the allowable voltage on the converter capacitors. Claims of the power supply comprising a converter, made according to a half bridge circuit on two transistors, two capacitors and a power transformer, two positive feedback windings of which are connected to the transistor inputs of the converter, two output windings of the positive feedback, connected to the secondary winding of the power transformer, as well as a master oscillator with a control transformer, the secondary windings of which are connected to the input transistors of the converter through diodes, in Switched counter-series with the emitter junction of the transistors of the converter, distinguishing 256 with the fact that, in order to reduce the output voltage ripple and increase reliability by balancing the operation of the converter, the master oscillator is made on a multivibrator with collector-base connections, the outputs of which are connected to the primary windings of the control transformer, a differential amplifier is introduced, the inputs of which are connected to the middle points of two introduced resistive voltage dividers, first the second of which is connected in parallel to the input terminals, and the second in parallel to one of the converter capacitors, and the outputs of the specified differential amplifier are connected to the bases of the transistors of the multivibrator. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 509259, cl. G 05 F 1/6, 197. 2. USSR author's certificate in application number 2956976, cl. C 05-1-64, 1980. 3. A. V. Lukin. Analysis of the work of a voltage converter with external control at a high conversion frequency. - Electronic technology in automation. Issue II, 1980, p. 9b, fig. one.