SU978130A1 - Dc voltage pulse stabilizer - Google Patents

Description

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

A stabilized DC voltage converter is known, which contains a master oscillator, a pi voltage generator, a comparator, a power amplifier, a rectifier filter, a feedback circuit, a frequency divider and two selectors Cl.

The disadvantage of this converter is low reliability due to the lack of protection of the transistors of the power amplifier against the through currents.

Closest to the present invention is a pulse voltage voltage regulator containing a push-pull voltage converter on transistors, output connected via a rectifier and a filter with output terminals of a pulse stabilizer connected through the error amplifier to one of the inputs of the comparator, and the other input connected to the output generator sawtooth voltage, the input connected to the output of the clock pulse generator, the output of the comparator is connected to the first input of the first element

AND-NOT, the OUT of which is connected to the outputs of the second and third elements AND-NOT, other inputs connected to the outputs of the T-flip-flop and the inputs of the first power amplifier, and the output from the RS-flip-flop inputs, the outputs of which are connected to the inputs of the second power amplifier, the output windings of the transformers of the power amplifiers are connected in series and connected to the base circuits of the transistors of the push-pull voltage converter C2.

A disadvantage of the known DC voltage pulse stabilizer is its limited functionality, since the minimum filling factor of the voltage pulses at the filter input cannot be reduced due to the signal delays in the comparator.

The purpose of the invention is to dissipate the functionality of a pulse voltage stabilizer by increasing the range of variation of the voltage pulse fill factor.

Claims (2)

This goal is achieved by the fact that a dc voltage regulator containing a push-pull transistor voltage converter, output connected via a rectifier and a filter to the output terminals of a pulse stabilizer connected through an amplifier matching one of the inputs of the comparator, the other input connected to the output of the sawtooth generator, the input connected to the output, the clock pulse generator), the comparator output is connected to the first input of the first NAND element, the output to expensively connected to the inputs of the second and. The third NAND elements, other inputs connected to the Ttrigger outputs and the inputs of the first power amplifier, and the outputs to the RS Trigger inputs, the outputs of which are connected to the inputs of the second power amplifier, with the output windings of the transformers of the power amplifiers meters of push-pull voltage transistors, equipped with a pulse shaper, the input of which is connected to the clock generator and ° Mpuls, the direct output is connected to the input of the T-flip-flop, and the inverse - from the second said first input of the element I-.ne. FIG. 1 shows a circuit diagram of a DC voltage regulator; Fig. 2 shows time diagrams of voltages at various points in the circuit. The power part of the DC voltage pulse stabilizer circuit contains a push-pull voltage converter, which is constant, for example, half-bridge circuit and contains transistors 1 and 2, capacitors 3 and 4, transformer 5, rectifier b, filter 7, connected to the output terminals of the pulse stabilizer . The control part consists of an 8-clock pulse generator, connected to a 9-saw voltage generator and a shaper of 10 pulses. The output of the sawtooth generator 9 is connected to the input of the comparator 11, the other input of which is connected to the output of the error amplifier 12. One of the inputs of the amplitude 12 mismatch is connected to the source 13 of the reference voltage, and the other input to the output terminal of the stabilizer. The output of the comparator 11 is connected to the input of the first element AND-HE 14, the other input of which is connected to the inverse output of the pulse former 10, the direct output of which is connected to the counting input T-flip-flop 15. The t-flip-flop 15 is connected to the inputs of the first amplifier 16 power ,. the second and third elements AND-NOT 17 and 18. Other inputs of the elements AND-NOT 17 and 18 are connected to the output of the element AND-NOT 14, and the outputs and inputs of the RS flip-flop 19, the outputs of the co; This is connected to the inputs of the amplifier. 20 power. The windings of transformers 21 m 22 are connected in series and are included in the basic circuits of transistors 1 and 2. Figure 2 shows temporary Voltage diagrams at various points cxoNbi: 23 - 8 clock pulses at the generator output, 24 - at the direct output of the driver 10 / pulses ; 25 - at the output of the saw-tooth generator 9; 26 - at the output of the comparator 11; 27 - at the output of the T-flip-flop 15; 28 - at the output of the logical element 14; 29 - at the output of the logic element 17 (18); 30 - at the output of the RS flip-flop 19; 31- on the base of a transistor 1 (2) push-pull voltage converter. The device works as follows. A sawtooth voltage from the output of the generator 9 is converted by the comparator 11 into square pulses, the duration of which is determined by the voltage value at the output of the error amplifier 12. The latitude-modulated pulses from the output of the comparator 11 and the pulses from the inverse output of the imaging unit 10 are fed to the inputs of the AND-NOT element 14. The latitude-modulated pulses from the output of the AND-NE element 14 and the pulses from the output of the T-flip-flop 15 are fed to the inputs of the 17 and 18 elements from the outputs of which the width-modulated pulses are fed to the inputs of the short-circuit trigger 19. The rectangular pulses at the outputs of the RS-flip-flop 19 are shifted in time relative to the pulses at the outputs of Ttrigger 15 by an amount equal to the duration of the width-width pulses at the output of the element that NAND 14. outputs T-FF 15 and RS-flip-flop 19 pulses are applied to the inputs of amplifiers 16 and 20 output respectively. The phasing of the amplifiers 16 and 20 and transformers 21 and 22 is chosen so that the voltages at the bases of the transistors 1 (2) of the power converter are similar to the signal in diagram 31. As can be seen from the diagram, the open time of the transistor 1 (2) of the power converter equal to the duration of the sawtooth voltage from the moment of the impulse of the former to the moment of comparison of the saw voltage and amplification of the mismatch, taking into account the signal delay time in the comparator jt. Since transistors 1 or 2 open at when the pulse generator voltage is larger than the delay time in the comparator l, the delay is not limited to the minimum open time of the transistors of the power converter, which expands the functionality of the DC voltage pulse stabilizer. The proposed device is especially effective at round-up conversion frequencies when the relative signal delay fpeMH in the comparator is significant. Claims of a DC voltage regulator / containing a push-pull voltage converter on transistors, output connected via a rectifier and a filter with output terminals of a pulse stabilizer connected through an error amplifier to one of the comparator inputs, another input connected to the output of the saw generator. voltage, connected to the output of the clock generator, pulses, the output of the comparator is connected to the first input of the first I-NE input, the output of which is connected It is connected to the inputs of the second and third elements of the NAND, other inputs connected to the T-flip-up and the first power amplifier inputs, and the outputs to the RS-flip-flop inputs, the outputs of which are connected to the second power amplifier, and the output windings of the power amplifier transformers are connected and connected to the base circuits of the push-pull transistors (voltages, characterized in that, in order to expand the functional capabilities of the pulse stabilizer by increasing the measuring range Neny duty cycle voltage pulses zheyi, it is provided with a pulse generator having an input connected to the clock pulse generator, a direct output connected to the trigger input T, and inversnyy- to a second input of said first AND-NO element. Sources of information taken into account during the examination 1. USSR author's certificate No. 479101, cl. G 05 F 1/64, 1975. 2. USSR author's certificate number 591846, cl. G 05 F 1/64, 1978.