SU890530A1 - Voltage converter - Google Patents

Description

(54) VOLTAGE CONVERTER

Claims (2)

The invention relates to electrical engineering, in particular, to secondary sources: power supply cells, and can be used to convert a constant voltage to a constant in various electronic devices. A voltage converter is known that contains an auto-generator and converter cells, each of which consists of a series-connected power amplifier, transformer, rectifier, filter, and the control inputs of the power amplifier are connected to the output of the auto-generator i. However, this converter has low reliability. We short the short circuit with a low output voltage quality. The closest in technical essence and the achieved result to the invention is a voltage converter containing an auto-generator and converter cells, each of which consists of a series-connected power amplifier, a transformer with additional control windings, a straightener, a filler, and control BxoV Power amplifier amplifiers are coupled to BJ by the oscillator 23. The disadvantage of the voltage converter is the low reliability and poor quality of the output voltage. The purpose of the invention is to increase the reliability and quality of voltage. The goal is achieved by the fact that in a voltage converter containing AND converter cells, included: at the input and output in series or P1 in parallel, each of which consists of a power amplifier with an output transformer with additional control windings, as well as with a filter, and also a booster , the output is connected to the control inputs of the first converter cell, the additional control windings of each cell are connected to the control inputs of the subsequent converter cell. KI, except the last, the control windings of which are connected to the control inputs of the first converter cell, Fng. 1 shows the structured power converter converter. in fig. 2 - pulsation of the output voltage of the cell converters. The voltage converter contains .runner 1 and converter: cells 2, 3, 4,.,., C, each of which contains a power amplifier 5, an output transformer 6 s Additional; control windings 7, rectifier 8 with filter 9, the control inputs of the first converter cell 2 are connected, with the output of block 1 and additional control windings 7 of the last converter cell, and the additional control windings of each cell are connected to the control terminals pre-h educational cell. The voltage converter operates as follows. When the voltage converter is connected to the constant voltage source, the start-up unit 1 outplays a pulse that opens one of the key of the Power Amplifier 5, converter cell 2. The additional control windings 7 of the transformer 6 of the converter cell 2 induces a voltage that opens one of the keys of the power amplifier 5 converter cell 3, etc. to the last converter cell. The control voltage from the additional control windings 7 of the transformer 6 of the converter cell 4 is fed to the keys of the power amplifier 5 of the converter cell 2 in such a way that it opens the previously private key and closes it (this is achieved by selecting the fact of the additional control winding 7 transformer 6 converter cell 4). In the future, triggering pulses are not needed for the operation of the device. Due to the nonideality of the fronts of the output voltage, the inertia of the keys of the power amplifier and the rectifier diodes, the voltage pulsations at the output of the filter have the form shown in FIG. 2. The control voltage to the input of the power amplifier, 5, converter KI 3 comes with a delay relative to the voltage of the starting pulse of the block for start 1 by the value of t and cd4Str, - the delay time of the signal when passing through the power amplifier 5 of the converter cell 2 and the transformer 6. As a result, the voltage dips (pulsations) of the filter 9 of the converter cell 3 are shifted on the time axis by an amount T (see Fig. 2). Similarly, the voltage dips on the filter course 9 of the next converter cell are shifted along the time axis by the magnitude HG relative to the voltage dips at the output of the filter 9 of the converter cell 3 and by 2 C relative to the voltage dips on the filter 9 output, the converter cell 2 and etc. to the last converter cell. From the output of additional control & coils of the transformer 7 in the last converter cell, the power amplifier 5 of the converter cell 2 is pulsed to the control signals of the converter along the time axis relative to the start pulse of the start-up unit by the value where the total number of converter cells is Switching frequency the voltage converter is defined as F- ± - L ... With a short circuit, the output of the voltage device on the additional control windings 7 of the transformer 6 decreases, the keys of the amplifiers My 5 goes out of saturation mode, further reducing the voltage on the additional control windings 7 of the transformer 6. This process continues until the device stops its oscillation. When the short circuit is cleared at the device's output, the next starting pulse of the start-up unit 1 resumes operation of the device. Power amplifier 5 can be performed by any of the known schemes. When using push-pull power amplifiers, the additional control winding 7 may be one, while the control transitions of the keys of the power amplifier are shunted by diodes (for the most common Push-pull power amplifiers, the additional winding 7 is terminated with a midpoint). For half-bridge power bridges, the number of additional control windings 7 is defined by c. Number of keys in the power amplifier. The use of the invention will allow reducing repair and maintenance work by increasing reliability and eliminating the output from the transistors of the power amplifiers of the converter cells, as well as reducing the weight and dimensions of the filter elements, improving the quality of the output voltage and the shape of the power consumption. Claims A voltage converter comprising 1 converter cells connected in input and output in series or in parallel, each of which consists of a power amplifier with an output of 304 Hbw transformer with additional control windings, a rectifier with a filter, as well as a startup unit whose output is connected to the control inputs of the first conversion cell, characterized in that, with a circuit for increasing the reliability and quality of the input voltage, the additional control windings of each cell are. The keys to the control codes afterbirth. The neck of the converter cell, except for the latter, whose control windings are connected to the control inputs. in (th converting cell. Sources of information., taken into account in the examination 1. EM EM 1 anisistor transducers in power devices of radio electronic equipment. M., Energii, 1975, p. 141. 2. Moin VS and. Stabiliafova. transistor transducers, M., Energie, 1972, p. 442, fig. 11-9D.