SU1181082A1 - Stabilized d.c. voltage-to-d.c. voltage converter - Google Patents

Abstract

STABILIZED CONSTANT VOLTAGE VOLTAGE CONVERTER, containing a clock generator, an output connected to the input of a pulse-width modulator, the outputs of which are connected to the control inputs of two preamplifiers, outputs connected to the control inputs of the power amplifier, a secondary section, a cross-section, a cross-section, and a cross-wrench, is attached with a cross-section of the side of the page, and a cross-section of the star is attached to a cross-sectional side of the line, and is attached to a cross-sectional area. filter, auxiliary power source j having a common output and potential connected to the power supply terminals of the clock generator, pulse width modulator and to the power input of the transistor switch, the control input of which is through diff. The fermentation circuit is connected to the output of the clock generator, and the output is connected to the supply terminals of the circuit; As well as the additional secondary winding of the output transformer, characterized in that, in order to improve the reliability of the converter, two pairs of diodes are introduced into it, while the output of the transistor switch is connected to the supply voltage of the transducer (L through a pair of diodes, and another with a pair of diodes, connects the leads of the additional secondary winding also to the power supply terminals of the preamplifiers, with the said winding having a midpoint connected to the common side of the auxiliary power source 00.

Description

The invention relates to the field of electrical engineering, in particular to power supply devices. The aim of the invention is to increase the reliability of the converter. The drawing shows a block diagram of the converter. The stabilized DC / DC converter contains a clock generator 1, an output connected to a clock input of a pulse-width modulator 2 and a differentiating circuit 3, the output of which is connected to the control input of a transistor switch 4. The outputs of the modulator 2 are connected to the control The pre-amplifier 5 and 6 inputs. The output of the pre-amplifier 5 is connected to the first control input, and the output of the pre-amplifier 6 is connected to the second control input of the power amplifier 7, containing One transformer 8, one of the secondary windings of which is connected to the input of the rectifier 9 with a filter. The common output of the auxiliary power supply 10 is connected to the clock generator 1, the pulse-width modulator 2 and to the preamplifiers 5 and 6. The potential output of the auxiliary power supply 10 is connected to the supply terminals of the generator 1 and the modulator 2 and to the power input of the transistor switch 4 The output of the latter through diode 11 is connected to the power output of the preamplifier 5, and through diode 12 to the power output of the preamplifier 6. One output of one of the secondary windings of the transformer 8 through the diode 13 connects n with a supply terminal preliminarily th amplifier 5 and the other terminal of the winding of the transformer 8 via a diode 14 - with a supply vshodom preliminary Nogo amplifier 6. midpoint AUC bound transformer winding 8 under. is connected to the common output of the auxiliary power source. The device works as follows. The pulses of the clock generator 1, indicating the beginning of each half-cycle of the output voltage of the amplifier 7 power, are fed to the clock input of the pulse-width modulator 2 and the input of the differentiating 22 circuit 3. The modulator 2 at the moment of the appearance of each pulse of the clock generator 1 begins to generate aa from its outputs pulse of a certain duration. The output pulses of the modulator 2 are alternately fed to the control inputs of the preamplifiers 5 and 6. The output voltage of the power supply source 10 is continuously supplied to the power inputs of the clock generator 1 and the modulator 2. At the beginning of each half-period the pulse of the clock generator 1 through the differentiating circuit 3 is fed to the control input of the transistor switch 4, which opens for a time determined by the parameters of the differentiating circuit 3. At the time of the beginning of each pulse of the clock generator 1 to the supply terminals of the preliminary preamplifier 5 and 6 receives the voltage output from the power source 10 via a transistor switch 4 and the diodes 11 and 12, so the pulse modulator 2 supplied to the control input of one of the preamplifiers 5 or 6 is amplified and supplied to the power amplifier 7. After the arrival of the leading edge of the pulse of the modulator 2 to the power amplifier 7, a certain time elapses to open the power key transistors of the power amplifier 7, after which the leading edge of the output pulse of positive or negative polarity appears at its output. The parameters of the differentiating circuit 3 are selected so that the transistor switch 4 is open for a time that is somewhat longer than is required to open the transistors of the power amplifier 7. The output pulses of the latter are fed to the input of the rectifier 9 with a filter. When transistor key 4 is closed, the supply terminals of one of the pre-amplifiers 5 or 6 through the diodes 13 or 14 receive the voltage from one of the halves of the secondary winding of the output transformer 8 of the power amplifier 7. The secondary winding of the output transformer 8, connected to the supply terminals of the preliminary amplifiers 5 and 6 through diodes 13 and 14, is phased so that for a half period, when the preliminary amplifier 5 is working, a positive voltage (relative to the midpoint) appears on its output, which is connected via diode 13 to the power supply of amplifier 5 and thus receives power before the end of the pulse of the modulator 2, and in the next half-period, when preamplifier 6 is working, a positive voltage appears You can supply it through the diode 14 to the power output of amplifier 6, providing it with power before the end of the pulse of the modulator 2. Diodes 11 and 12 dissolve the power supply circuit before heating amplifiers 5 and 6 when they are fed from the secondary winding of the output transformer 8 In the event of an overload, the output voltage of the power amplifier 7 decreases, which means that the power supply voltage of the preamplifiers 5 and 6, which are fed in alternately through diodes 13 or 14, decreases. As a result, the output voltage of the preamplifiers preamplifier 5 or 6, which reduces the base .toka transistor amplifier 7 and further to a drop in the output voltage of the power amplifier 7, and this causes a new voltage drop tannin preamplifiers claim 5 or 6, etc. This process is an avalanche. The transistors of the power amplifier 7 are closed with a speed determined by the speed of the elements of the power amplifier 7., diodes 13 and 14, and preamplifiers 5 and 6. In the event of a short circuit, the output voltage of the power amplifier 7, and hence the supply terminals of the operating The pre-824 amplifier 5 and 6, drops to zero, the output voltage of the working pre-amplifier 5 or 6 disappears, so the operation of the converter stops almost instantly. If the overload or short circuit does not stop, the transistors of the amplifier 7. The power is opened only at the beginning of each clock pulse during the open state of the transistor switch 4, determined by the parameters of the differentiating circuit 3. The pulse width is high and the average current through the transistors of the power amplifier 7 significantly less than the maximum allowable, so the duration of the emergency mode is not limited. With the elimination of overload or short circuit, the converter starts to operate when the next pulse of the clock generator 1 appears. If at both outputs of the modulator 2 due to various reasons, for example due to interference, simultaneously control signals appear at the beginning of the half period when transistor switch 4 is open , and both pre-forces; bodies 5 and 6 are simultaneously powered by a low-voltage source 10, it is possible to see a through-current in the power amplifier 7. But due to the sufficiently high porosity of the pulses of transistor switch 4, the average current through the transistors of the amplifier 7 power is much less than the maximum allowed, which does not cause them to fail, in this case the voltage on the secondary winding of the transformer 8 does not work, the preamplifiers will not receive power after the shorts of the transistor switch 4 and the transistors of the power amplifier 7 are closed.

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Claims (1)

A STABILIZED DC / DC converter to a constant voltage, comprising a clock generator, output connected to the input of a pulse-width modulator, the outputs of which are connected to the control inputs of two preamps, the outputs connected to the control inputs of a power amplifier, the secondary winding of the output transformer of which is connected to the output by the filter a power supply having a common output and potential, connected to the power outputs of the clock generator, pulse-width mode the radiator and to the power input of the transistor switch, the control input of which is through differential. . the ferencing circuit is connected to the output of the clock generator, and the output is connected to the supply leads of the preamplifiers, as well as an additional secondary winding of the output transformer, characterized in that, in order to increase the reliability of the converter, two pairs of diodes are introduced into it, while the output of the transistor switch is connected to the preamplifier supply leads are made through one pair of diodes, and the other pair of diodes connects the additional secondary winding leads to the preamplifier supply leads, moreover, said winding a middle point connected to the common terminal of the auxiliary power supply. SU, 1181082 ί 1181082 2