SU982164A1 - Stabilized dc voltage converter - Google Patents

Description

(54) STABILIZED CONSTANT VOLTAGE CONVERTER

one

The invention relates to electrical engineering and can be used in secondary power sources for the conversion of: and the development of constant voltage.

A known voltage converter comprising a master oscillator, a saw-tooth voltage generator, a comparator, a power amplifier, a rectifier, a filter, a feedback circuit, a frequency divider and two selectors, an input of the frequency divider connecting the master oscillator, selector inputs to the output of the frequency divider and the output of the switch, and. selector outputs to power amplifier input 1.

The disadvantage of this converter is j, the current overload of the power transistors during start-up, when the transient charge of the output capacitors takes place.

The closest to the present invention is a DC voltage converter, in which the indicated disadvantage is eliminated, due to the main increase in the start-up of the duration of the pulses opening the power transistors. This converter contains power

Claims (2)

a rectifier with a filter connected to the output transformer of a push-pull power amplifier with power transistors, the bases of which are connected to the terminals of the semi-windings of the transformer of the controlling preamplifier and through diodes connected to the terminals of the half-windings of the locking preamplifier of the transformer according to the two-stroke scheme on transistors, and the bases of the transistors of the first of them are connected to the outputs of the first pair, and the base of the transistors of the second - with the outputs of the second pair of logical elements And, the first in The moves of the first pair of these elements are connected to the outputs of the first. the frequency divider, and the first inputs of the second (these components are connected to the outputs of the second frequency divider, the second inputs of the first pair of elements I are connected through the first inverter to the second inputs of the second pair of elements And, the first input of the pulse-width modulator is connected through the first capacitor to the output of the driver The second input, with the output terminals of the converter, the inputs of the frequency dividers are connected, 398 are connected to each other through a second inverter, the input of the latter being connected to the output of the master oscillator and To the input of the sawtooth voltage driver, and the auxiliary voltage regulator, to the output of which the voltage source is connected, the first and second two-resistance voltage dividers, the middle point of the first voltage divider connected to the first input of the comparator and through the back-on diode to the second an input pulse-modulator modulator, the first input of which is connected to the midpoint of the second voltage divider, the output of the sawtooth voltage former through the second capacitor is connected to W and a comparator through the resistor — with the midpoint of an integrating RC circuit connected to the output of the voltage source 2. The disadvantages of this converter are the lack of active locking of the power transistors during the start-up process (for several periods of converter operation) and, as a result , asymmetry of the voltage pulse duration applied to the primary semi-windings of the output transformer, one-sided saturation of the core of the transformer and current overload of one of the forces output transistors at the end of a half cycle. The purpose of the invention is to increase the reliability. The goal is achieved by adding an additional AND gate to the converter, one input of which is connected to the output of the comparator, another input to the output of a pulse-width modulator, and the output to the second input of the first pair of elements AND The drawing shows a circuit diagram of a converter. The stabilized converter contains a rectifier 1 with filter filters 2 connected to an output transformer of a push-pull power amplifier on transistors 3 and 4, the bases of which are connected via resistors 5 and 6 to the half-winding 7 and 8 transformer 9 of the control pre-amplifier on transistors 10 and 11, and through diodes 12 and 13 with the half windings 14 and 15 of the transformer 16 of the blocking preamplifier using transistors 17 and 18. The bases of the transistors of the control preamplifier are connected to the outputs of the first pair of logic elements And 19 and 20, and the base of the transistors of the locking - to the outputs of the second pair of logic elements And 21 and 22. The first inputs of the first pair are connected to the output of the pulse-width modulator 23, and the first inputs of the second pair with the output of the inverter 24. The second inputs of the first pair are connected to the outputs of the first frequency divider 25, the second inputs 4 of the second pair to the outputs of the second frequency divider 26. The master oscillator 27 is connected directly to the input of the second frequency divider 28 through the second inverter 28, and to the input of the first and to the input of the ramp voltage 29. At the output of the auxiliary stabilizer 30, the first voltage divider is installed on the resistors 31 and 32, the second divider on the resistors 33 and 34, is the reference source 35. The middle point of the first divider is connected to the inverting input 36 of the comparator 37. An integrating circuit from the resistor is connected to the output of the reference source 35 38 and a capacitor 39, the midpoint of which through a resistor 40 is connected to an inverting input 41 of the comparator 37 connected via; a condenser 42 to the output of the sawtooth voltage former 29 n through a capacitor 43 to the midpoint of the second voltage divider, which is connected to the non-inverting input 44 of the pulse-width modulator, and its inverting input 45 is connected via a direct diode 46 to the input of the comparator 37 B and 37 directly to the output of the filter 2, the output of the comparator 37 is connected to the third inputs of the first pair of matching circuits, the input of the inverter 24 is connected to the output of the matching circuit 47, to one input of which the output of the thio-pulse modulator 23 is connected, to another y - the output of the comparator 37. The device operates as follows. At the first moment of time after switching on, the voltage at the output of the device, and consequently, at the inverting input 45 of the pulse-polar modulator 23 is zero. At its output, a voltage is established that unlocks the coincidence circuits 19, 29, and 47. The voltage on the capacitor 39 is also zero at the first time instant. Therefore, the voltage at the non-inverting input 41 of the comparator 37 is also zero. The output of the comparator 37 is a voltage locking the matching circuits 19, 29 to 47. Since the output of the matching circuit 47 is connected to the inputs of the matching circuit 21 to 22 via an inverter 24, when the coincidence circuit is locked, 47 coincidence circuits 21 and 22 are open and the pulses from the outputs of frequency divider 26 arrive at the bases of transistors 17 and 18 of the locking pre-divider, unlocking them for the duration of the pulse. On the windings of the transformer 16, a two-pole square voltage is formed, which, acting through diodes 12 and 13 on the bases of transistors 3 and 4, ensures that the base-emitter of the blocking voltage is maintained at their junctions. As the capacitor 39 charges, a pulse train is formed at the output of the comparator 37. the duration of which increases from zero to the set value. These pulses, arriving at the inputs of the coincidence circuits 19 and 20, open them for the duration of the pulse duration, ensuring that the pulses with the output of frequency 25 at the time go to the bases of transistors 10 and I and generate the control voltage on the windings of the transformer 9. At the same time the output of the comparator 37 is fed to the input of the coincidence circuit 47, unlocking it for the duration of the pulse. From the output of the coincidence circuit 47, the pulses through the inverter 24 are fed to. the inputs of the coincidence circuits 21 and 22, locking them to the duration of the pulse generated at the output of the comparator 37. As the voltage rises on the capacitor 39, the filling factor of the pulses at the output of the comparator 37 and at the windings of the transformer 9 increases, and at the windings of the transformer 16 decreases, moreover, the moment of formation of pulses on the windings of the transformer 9 coincides with the moment of formation of a pause in the locking voltage removed from the windings 14 and 13 of the transformer 16. Consequently, immediately after the termination of the control pulse, Suppose, at the semi-winding 7 of the transformer 9, from the semi-winding 14 of the transformer 16, through the diode 12, a voltage is applied to the base of the previously open transistor 3, which ensures its formed locking. As the output voltage approaches the nominal value, pulses form at the output of the pulse-width modulator and their duration decreases as the output voltage increases. At the moment when the pulse duration at the output of the pulse-width modulator 23 becomes shorter than the duration of the output pulses of the comparator 37, the operation of the device begins to control the pin-pulse modulator 23, stabilizing the output voltage of the converter. Thus, in the proposed device both in the steady state and during the start, determined from the moment of switching on until the nominal voltage is set at the output of the converter, a blocking voltage is formed on the windings of the transformer 16, ensuring The forced forced locking of the transistors 3 and 4 immediately after switching on the device. This eliminates the risk of significant asymmetry in the duration of the pulses generated by transistors 3 and 4 each half-period. This eliminates the possibility of one-sided generation of the power transformer core ush 46 46 power bodies during start-up and the associated occurrence of bursts of the collector current much higher than transistor current in steady state mode. All this increases the reliability of the device. Claims A stabilized DC / DC converter containing a power rectifier with a filter connected to the output transformer of a push-pull amplifier: power at power transistors, the bases of which are connected to the terminals of the half-windings of the control pre-amplifier transformer and through diodes connected to the terminals of the half-windings of the transformer of the lock preamplifier , executed on the push-pull circuit on transistors, and the base of the transistors of the first one is connected to the output Dami first pair, and the base of the transistors of the second - with the outputs of the second pair of logical elements And, the first inputs of the first pair of these elements are connected to the outputs of the first frequency divider, and the first inputs of the second pair of ethnh elements are connected to the outputs of the second frequency divider, the second inputs of the first pair of elements And are connected via a reverse inverter with the second inputs of the second pair of elements I, the first input of the tweeter module is connected via the first capacitor to the output of the sawtooth voltage former, and the second input is connected to the output The inverter outputs, the inputs of the frequency dividers are connected to each other through a second inverter, the latter being connected to the output of the master oscillator and to the input of the sawtooth voltage driver, "an auxiliary voltage regulator, to the output of which the reference voltage source is connected, the first and second dual-resistance voltage dividers the middle voltage of the first voltage divider is connected to the first input of the comparator and through a back-on diode to the second input of the pulse-width modulator, The first input of which is connected to the middle point of the second voltage divider, the output of the sawtooth generator, the second capacitor is connected to the second input of the comparator and through a resistor to the middle point of the integrating RC circuit connected to the output of the reference voltage source, characterized in that in order to improve reliability, an additional AND logic element was introduced into it, one input of which is connected to the output of the comparator, another input - to the output of a pulse-width modulator, and output 7 to the second inputs of the primary pairs of elements Sources of information taken into account in the examination I.1- Copyright sovdetstvo USSR № 479101, 9821648 Cl. C 05 F 1/64, 1975. 2. USSR author's certificate No. 748721, cl. H 02 M 3/335, 1980.