SU851370A1 - Dc voltage pulse stabilizer - Google Patents

Description

     -:

The invention relates to electrical engineering and can be used to create secondary power sources for electronic equipment.

Known pulse voltage regulators containing a push-pull adjustable transducer with an output transformer, amplifier; Feedback connected to the output of the stabilizer; two pulse-width modulators, each of which is connected to the feedback amplifier output by one input and Sawtooth generator, driver, driver, and signal generator associated with the push-pull transducer inputs. The input of the shaping device is connected to the output of the pulse-width modulator. In these devices, the sawtooth waveform from the output of the corresponding saw-voltage generator is compared at the input of the corresponding pulse-width modulator with the output voltage of the feedback amplifier, and in moments of equality of their values at the output of pulse-width modulators, pulses are produced, changing those

state of the corresponding key of the push-pull converter Cl The disadvantage of the known pulse

- stabilizers is the asymmetry of the control pulses of the push-pull converter in each half-period, the result of which is one-sided saturation of the core

1d output transformer and an increase in current through the transistors iipeo6producer.

The closest to the present invention is a pulsed stabilizer of a direct voltage} 1geni, which contains a push-pull adjustable transducer with an output transformer, a two-pulse pulse former connected to the control inputs of the adjustable transducer, which

20 generator,. a sawtooth voltage generator, the input of which is connected to the output of the road generator, a feedback amplifier connected to the output of the converter, i a pulse width 25 pulse modulator, one input connected to the output of the feedback amplifier, and the other to the output. the sawtooth generator, and the synchronizer element, the input of which is connected to the output

generator, and the outputs are connected to the inputs of the pulse generator G2. A disadvantage of the known stabilizer is an increase in losses in the transistors of the converter and a decrease in reliability in the mode of large pulsations at the output of the pulse stabilizer and during transients, due to the asymmetry of the pulses at the output of the pulse-width modulator due to the pulsations at the output of the feedback amplifier.

The purpose of the invention is to increase the efficiency and reliability of the stabilizer.

This goal is achieved by the fact that a DC voltage regulator is equipped with a pulse repeater and a trigger, one input of which is connected: an output of a pulse-width modulator, another - with the first output of the synchronization element, and an output - with the first output of the synchronization element and with the control input of the pulse repeater, the output of which is connected to the second input of the pulse former, the generator being equipped with additional outputs which are connected to power pulse repeater.

One of the embodiments of the pulse repeater and its connection to the stabilizer blocks is that the master oscillator is equipped with three additional midpoint outputs, two of which are antiphase, and the third is a direct current output. The impulse repeater contains an output amplifier, a key element, an operational amplifier, the first and second linear variable voltage generators, the control input of the first generator is connected to the control input of the pulse repeater, and the output is connected to the first input of the operational amplifier, the second input of which is connected with the output of the second generator, the power supply terminal of which is through a diode, and the input is shunted by a key element through a resistor, connected to the output of the operational amplifier, the output of which is connected to the output of the repeater pulses through the output amplifier, the power clamp of which, and the control input of the key element are connected to the antiphase outputs of the generator, the third additional output of which is connected to the power clamp of the first generator, and the common point with the common power clamp of all the pulse repeater units.

FIG. 1 shows the scheme of the proposed 31MPU of a new stabilizer; in fig. 2 - pulse repeater circuit; in fig. 3 - time diagrams.

The proposed stabilizer contains an alternating voltage source 1, rectifiers 2 and 3, input and output respectively, filters 4, 5, adjustable push-pull converter 6, transistors 7, 8, capacitors 9, 10, transformer 11, load 12, amplifier 13 reverse zi, reference voltage source 14, pulse width modulator

15, a sawtooth voltage generator 16, a trigger 17, a pulse shaper 18, a master oscillator 19, a synchronization element 20, a pulse repeater 21, a pulse repeater input 22, a pulse repeater output 23, a power input 24, 25j 26, a common point 27, linearly varying voltage generators 28, 29, operational amplifier 30, operational amplifier inputs 31 and 32, electronic switch 33, output amplifier

34, transistors 35-39, resistors 4050, kondensatoel 51 and 52, diodes 53, 54 and 55.

The output of the converter (load 12) is connected to one of the inputs of the feedback amplifier 13, the other input of which is connected to the output of the source 14 of the reference voltage, and the output to one of the inputs of the modulator 15, the other input of which is connected to the output of the generator 16, the output of the modulator 15 is connected to the output of the trigger 17, the output of which is connected to the driver 18, the other input of which is connected to the output 23 of the pulse repeater 21. The trigger input trigger 17 and the input 22 of the repeater 21 pulses are connected to the synchronizing element 20, whose input as well as the generator 16 and the inputs 24, 25 and .26 of the repeater 21 pulses are connected to the output of the master oscillator 19. The outputs of the driver 18 are connected to the control The inputs of the converter 6. The input 22 of the pulse repeater 21 (FIG. 2) is the input of the generator 28. The output of the generator 28 is connected to the input 32 of the operational amplifier 30.

Linear voltage oscillator 28 is built on a transistor

35, resistors 40 and 41, capacitor

51. The control input of the second generator 29 through a resistor 44 is connected

with the output of the operational amplifier 30 and with the collector of the transistor 36 of the electronic switch 33. The power input of the generator 29 through the diode 54 and the resistor 46 is connected to the output of the operational amplifier 30. The output of the generator 29 is connected to the input 31 of the operational amplifier 30.

The generator 29 is built on a transistor 37, resistors 44-46, a diode 54, a capacitor 52. The input of the electronic switch 33 is through a diode 53 and the resistor 42 is connected to the supply input 25 of the pulse repeater generator 21. The electronic switch consists of a transistor 36, a diode 53 , resistors 42 and 43. The input of the output amplifier is connected to the output of the operational amplifier of the body 30. The output amplifier p4 includes transistors 38 and 39, resistors 47-50, diode 55. The inputs 24-26 of the repeater 21 pulses are connected with the corresponding the outputs of the master oscillator 19 (figure 1). The source voltage of converter 6 is fed through rectifier 3 and filter 5 to load 12. In feedback amplifier 13, the output voltage of the stabilizer is compared with the voltage of reference source 14. Output voltage of feedback amplifier .13 and generator 16 ( the voltage of which is generated only in the first half-periods of the master oscillator 19) is compared in the modulator 15. The secondary signal of the modulator 15 is fed to the input of the trigger 17, to the other input of which synchronizing pulses are output from the element 20 of the blue p tions. The output signal of the trigger 17 is supplied by the shaper 18, which provides control of the transistors 7 and 8 of the converter 6 in the first operating period of the master oscillator 19. At the same time, the output signal of the trigger 17 arrives at the input 22 of the repeater 21 pulses In the time interval O-tj the generator transistor 35 28 zgshrt The capacitor 51 is charged through the inputs of the input 26 and the resistor 41. In this time interval, the capacitor 52 of the generator 29 is charged through the diode 54, the resistor 46 from the output of the operational amplifier 30. The voltage change on the capacitor 52 follows the name of the capacitor 51 As a result, level voltage capacitors 52 n 51 between 0-t | are almost the same. In the pulse shaping interval of the modulator t, the input 22 of the generator 28 receives a pulse, the transistor 35 is turned off, the capacitor 51 is discharged. In this case, since the voltage at the input 32 of the operational amplifier 30 is not applied (the capacitor 51 is discharged, the polarity at the output of the operational amplifier 30 changes from positive and typical. The diode 54 at the same time prevents negative voltage from entering the capacitor 52, and in the interval t, the voltage on it remains practically at the same level as at time ti. The transistor 36 of the electronic key 33 in the first half period is opened by the voltage supplied to the power input 25, which prevents false unlocking of the transistor various interferences. In the second half period, transistor 35 is locked (no modulator pulse), capacitor 51 is charged again and voltage is applied to input 32 of operational amplifier 30. Voltage of capacitor to input 32 of operational amplifier 30 is Ucj- the moment t the voltage across the capacitor 51 reaches the voltage level Uj ,, the polarity at the output of the opamping amplifier 30. The voltage at the base of the transistor 37 is unlocked and the capacitor 52 is discharged. Since the output of the operational amplifier is connected to the base of the transistor 38, the collector of the transistor 39, i.e. At the output 23 of the repeater 21 pulses in the second half period, in the interval t, -T, a control pulse is generated, the duration of which is equal to the duration of the modulator signal generated in the first half period. Thus, the control pulses of the same duration and control pulses are received at the input of the imaging unit 18 both in the first and in the second half cycles, regardless of the magnitude of the feedback signal in the second half period. False unlocking of the transistor 37 in the second half-period in the interval -j- - 1 "is prevented due to the fact that in this interval it is locked by means of an operational amplifier 30, the polarity of which is negative in this interval. At the beginning of each half-period, a start and a pulse from the synchronization element 20 are fed to the base of the transistor 35, in which the capacitor 51 is discharged and the generator 28 is prepared for the next cycle. In the case of the formation of several intermittent DMM pulses in the first half-period, depending on the feedback signal (for example, under the influence of interference) of 1 FV V t V (the fifth half-period and FIG. 3), one control pulse is formed at the output of trigger 17, the duration of which is determined well, the first pulse of PWM and the end of the last. For this mode, one pulse of the same duration as that of the trigger output is generated in the output of the pulse repeater. In this way, the same duration of control pulses on which of the driver 18 is ensured, which excludes transformer bias and an increase in the currents of the transducer transistors and transistors of push-pull power amplifiers, increases efficiency and reliability.

Claims (2)

1. Pulse DC voltage regulator, which contains a push-pull adjustable converter with an output transformer, a push-pull pulse shaper connected to the control inputs of the adjustable converter, a master oscillator, a sawtooth generator, the input of which is connected to the master oscillator output, a feedback amplifier connected to the output of the converter, a pulse width modulator, one input connected to the output of the feedback amplifier; and the other with the output of the sawtooth generator and a synchronization element, the input of which is connected to the output of the master oscillator, and the outputs are connected to the pulse shaper input, characterized in that, in order to increase efficiency and reliability, it is equipped with a repeater and trigger one input of which is connected to the output of the pulse-width modulator, the other is connected to the first output of the synchronization element, and the output - to the first input of the pulse former, to the second output of the synchronization element ation and a control input of the pulse repeater, whose output is connected to a second input of the pulse shaper, the master oscillator is equipped with additional outlets that are connected to the power terminals of the pulse follower. 2. The stabilizer according to claim 1, characterized in that the master oscillator is equipped with three additional outputs with a midpoint, two of which are antiphase, and the third is a direct current output, the pulse repeater contains an output amplifier, a key element, an operational amplifier, the first and the second linear voltage generator, the control input of the first generator is connected to the control input of the pulse repeater, and the output is connected to the first input of the operational amplifier, the second input of which is connected to the output of the second generator, whose power is through the diode, and the input is shunted by a key element, through a resistor, is connected to the output of the operational amplifier, the output of which is connected to the output of the pulse repeater through the output amplifier, the power terminal of which is connected to the anti-phase element to the outputs of the master oscillator, the third additional output of which is connected to the power terminal of the first generator, and the common point to the common power terminal of all the pulse repeater units. . Sources of information taken into account in the examination 1. Collector. Electronic technology 5 in automation. Under ReD-Yu-I.Koneva. M., Soviet Radio, 197J, no. four, with. 29, fig. one. 2. Author's certificate of the USSR. № 477901, cl. G 05 F 1/64, 1973.