SU1185541A1 - Stabilized d.c.voltage converter - Google Patents

Abstract

A DC VOLTAGE STANDING CONVERTER, containing four power switches, a choke, an output transformer, the middle point of the primary winding of which is connected through the choke to the first input wrench, and each of the extreme terminals of this winding through the first and second, and also the third and fourth keys connected to the first and second input buses, respectively; a rectifier whose input is connected to the secondary winding of the output transformer, and the output through a filter is connected to the output busses of the transformer l and the input of the feedback unit, the output of which is connected to the control input of the controlled one-shot, as well as the master oscillator, the output of which is connected to the trigger input, the anti-phase outputs of which are connected to the first inputs of two elements And the outputs of which are connected to the control inputs of the first and a third power switch, characterized in that, in order to extend the functionality by ensuring the stabilization of the output voltage in a wider range of input voltage variation, it has The second controlled one-shot and two inverters, the input of the first of which is combined with the output of the first controlled one-shot and the control input of the second power switch, the input of the second inverter is combined with the output of the second one-oscillator and control input of the fourth X power switch, and the outputs of the inverters connected to the second inputs of the elements I, the start inputs of controlled single vibrators connected to the anti-phase outputs of the trigger, and the control input of the second single vibrator with the output of the feedback unit.

Description

The invention relates to electrical engineering and can be used in equipment power sources. The purpose of the invention is to expand the functionality of the device by stabilizing the output voltage over a wider input voltage range. The drawing shows the functional diagram of the Converter. The DC voltage stabilizer converter contains four power switches 1-A, choke 5, output transformer 6, the middle point of which is connected to the first input bus 7 via the choke 5, and the third and fourth 4 power terminals the keys are connected respectively to the first 7 and second 8 input buses, the rectifier 9, whose input is connected to the output winding of the transformer 6, and the output through the filter 10 is connected to the output buses of the inverter 11 and the input of the feedback unit 12, you One of which is connected to the control inputs of one-shot 13 and 14, the outputs of which are connected respectively to the control inputs of the second 2 and fourth 4 power switches, as well as the master oscillator 15, trigger 16, whose input is connected to the master oscillator 15 output the first output - the start input of the first controlled one-shot 13 and the first input of the first element I 1 is the second output to the start input of the second controlled one-vibration 14 and the first input of the second element I 18, and the outputs of the controlled one-shot 13 and 14 through the first 19 and Ora inverters 20 are connected to second inputs of AND gates 17, 18, whose output is connected respectively to the control inputs of the first 1 and third 3 power switches. The proposed device works as follows. The feedback unit 12 adjusts the duration of the output pulses of the controlled single vibrators 14 and 13 depending on the deviation of the output voltage of the stabilized converter from the nominal one. When the supply voltage is greater than the threshold value Uj, which is determined by the device setting, the duration of the pulses of the 11 1112 controllable one-vibrators 13 and 14 will be less than the duration of the output pulses of the trigger 16. In this mode, the master oscillator 15, the trigger 16, the controlled single-oscillators 13 and 14, the invartors 19 and 20 of the circuits AND 17 and 18 and the feedback unit 12 form a four-stroke width-modulated signal, enabling alternate switching of the power switches 1., 2, 3 and 4. During the open state, the power switch 2 ( or 4) energy The mains supply is transferred to the load and the filter 10 is stored in the choke 5, and during the open state of the power switch 1 (or 3) the load and the filter 10 are powered by the energy stored in the choke 5. In this case, the stabilizing converter operates in the volt-reading mode. Secondary voltage. Noah's winding of the transformer 6 has the shape of a meander and is stabilized in amplitude. With dips in the supply (input) voltage below the threshold value Ug, the duration of the output pulses of the controlled single vibrators 13 and 14 becomes longer than the duration of the output pulses of the trigger 16. In this mode, the master oscillator 15, the trigger 16, the controlled single vibrators 13 and 14 and the feedback unit 12 form the width-modulated control signals of the power switches 2 and 4, which operate with overlapping on-state conditions. A moment of overlapping of the input supply voltage is applied to the choke 5, while it stores energy gi When one of the power switches 2 or 4 is closed, the energy stored in the choke 5 is transferred to the load and the filter 10 together with the power supply network. In this case, the stabilized converter operates in add-on mode. A 1-1 pulse voltage on the secondary winding of the transformer 6 is modulated in duration and stabilized in amplitude. Thus, at any value of the input (supply) voltage, including during long dips, the output voltage of the stabilizing voltage converter remains unchanged. Introduction of a second controlled one-shot and two inverters to the converter allows varying the mode of operation of the device in 31

depending on the input voltage level, namely at the input voltage level above the limit value (Jj, determined by the device setting, the stabilizing converter operates in the voltage reading mode, at the input voltage less.

1855A14

than i) c; (, the device operates as a voltage boost. This allows the output voltage of the converter to stabilize when the input voltage drops, including long ones, which significantly expands the range of application of this device.

Claims (1)

A STABILIZING DC VOLTAGE CONVERTER comprising. four power switches, a choke, an output transformer, the middle point of the primary winding of which is connected via a choke to the first input bus, and each of the terminal leads of this winding is connected through the first and second, and also through the third and fourth power keys, respectively, to the first and second input buses , a rectifier, the input of which is connected to the secondary winding of the output transformer, and the output through the filter is connected to the output buses of the converter and the input of the feedback unit, the output of which is connected to the control input of the control of a single vibrator: · as well as a master oscillator, the output of which is connected to the trigger input, whose out-of-phase outputs are connected to the first inputs of two AND elements, the outputs of which are connected to the control inputs of the first and third power switches, characterized in that, in order to expand the functionality by providing stabilization of the output voltage in a wider range of input voltage variation, a second controlled one-shot and two inverters are introduced into it, the input of the first of which is combined with the output ohm of the first controlled one-shot and the control input of the second power switch, the input of the second inverter is combined with the output of the second one-shot and the control input of the fourth power switch, and the outputs of the inverters are connected to the second inputs of the I elements, and the startup inputs of the controlled single-shots are connected to the antiphase outputs of the trigger, and the control input the second one-shot with the output of the feedback block.