SU1705984A1 - Regulated dc voltage converter - Google Patents

Abstract

The invention relates to electrical engineering, in particular to converter equipment, and can be used in secondary power supply sources. The purpose of the invention is to improve the quality of the output voltage by increasing the accuracy of its regulation. The stabilized DC converter contains a transistor inverter 1 with a power transformer 2 and a rectifier 3 at the output, made according to the two-stroke oscillator circuit with the first switching transformer 4, the master oscillator 7 short pulses and the error amplifier 11. The second switching transformer is entered into the device 12, two transistor switches 26, 27 controlled by the generator 7 short push-pull pulses of a stable frequency. 1 hp f-ly, 1 ill. ate

Description

The invention relates to electrical engineering, in particular to converter equipment, and can be used in secondary power supply sources.

The purpose of the invention is to improve the quality of the output voltage by increasing the accuracy of its regulation.

The drawing shows a schematic diagram of the converter.

The stabilized DC converter contains a transistor inverter 1 with a power transformer 2 and a rectifier 3 at the output, made according to the scheme of a two-stroke self-oscillator converter with the first switching transformer 4, which unlocks the transistors through

the differentiating chains 5 and 6 are connected to the outputs of the master oscillator 7, and the control winding 8 of the switching transformer 4 is connected through one first diode 9 to the collector of the output transistor 10 of the error amplifier 11, the second switching transformer 12, the resistor 13 and the second diode 14 are inserted, the primary windings 15 and 16 of the switching transformers 4 and 12 are connected in series and connected through a resistor 13 to any winding of the power transformer 2, the secondary windings 17, 18 to the control circuits of the transistors inverter 1, and the control winding 19 of the second switching transformer 12 is connected by one output

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through the second diode 14 to the collector of the output transistor 10 of the error amplifier 11, the other terminals of the control windings 8, 19 are connected to one output terminal 20 of the converter, and the emitter of the output transistor 10 of the error amplifier 11 to the other output terminal 21, each circuit unlocking the inverter transistor in the form of a converter connected to the output terminals 20,21 of the serial connection of the additional winding 22, 23 of the corresponding switching transformer 4, 12, diode 24, 25 and the key transistor 26, 27, to the output of which sub-switches, the output of the master oscillator 7 through said differentiating chains 5, 6. Inverter 1 contains power transistors 28, 29, starting resistors 30, 31, basic capacitors 32, 33.

The stabilized push-pull DC-DC converter operates as follows.

When the supply voltage is applied, the inverter starts up in the auto-oscillator mode due to the current through the starting resistors 30 and 31. The power-on time of the power transistors 28 and 29 is determined by the saturation time of the cores of the switching transformers 4, 12 and corrected by the capacitors 32 and 33.

The voltage at the output pins 20, 21 of the converter increases. At some value of this voltage, the master oscillator 7 is started, the stable frequency of which pulses is higher than the maximum frequency of the self-oscillations of the inverter 1. The alternator 7 alternately briefly opens the transistor switches 26 and 27. creating current pulses in the additional windings 22 and 23 that the power cannot turn on transistors 28 and 29, since the ampere turns of windings 22 and 23 are smaller than the ampere turns of windings 15 and 16. The self-oscillating mode of inverter 1 is preserved.

When the voltage at the output pins 20, 21 of the converter exceeds the reference, the error signal amplifier 11 creates a current in the control windings 8 and 19, which increases the off time of each of the power transistors 28, 29. There are times when both these transistor. During these intervals, the power transistors 28, 29 can be turned on forcibly when opening the keys 26, 27, and the device switches to the WITCH mode.

As the error signal amplifier 11, a traditional large-scale amplifier can be used, in proportion to the integrating amplifier of the classical astatic control system, and a comparator.

In the proposed device, the functions of the error signal integrator, comparator, trigger, synchronous keys ISHIM, as well as galvanic isolation and magnetic amplifier are performed by switching transformers 4 and 12, which increases the control accuracy, i.e. provides high quality output voltage.

Claims (2)

1. A stabilized DC voltage converter containing a transistor inverter with a power transformer and a rectifier at the output, made according to the two-stroke auto-oscillator converter circuit with the first switching transformer of which unlocks the transistors through the differentiating circuits connected to the outputs of the master oscillator, and the control the winding of the switching transformer is connected by one output through the first diode to the collector of the output transistor of the error amplifier, about distinguished by the fact that, in order to improve the quality of the output voltage by improving its control accuracy, a second switching transformer, a resistor and a second diode are introduced, the primary windings of the switching transformers are connected in series and connected via a resistor to any winding of the power transformer, the secondary windings are to the control circuits of the inverter transistors, and the control winding of the second switching transformer is connected to one output transistor through a second diode to the collector of the output transistor pa error amplifier, the other terminals of the actuating coils connected to one output terminal of the converter, and the emitter of the output transistor of the amplifier mismatch - to the other output terminal. 2. The converter according to claim 1, about tl and h a yu and s. The fact that each circuit of the transistor inverter is unlocked is connected to the output terminals of the serial converter of the auxiliary winding of the corresponding switching transformer, diode and key transistor, to the input of which the output of the master oscillator is connected via the differentiating chain. D- ---- f fc u ± I I, / l v with .I ll