SU1372564A1 - Stabilized d.c. to a.c. voltage inverter - Google Patents

Abstract

The invention relates to electrical engineering, namely to power supplies with a transformerless input, and can be used in power supply systems for automation devices, computing equipment and radio equipment. Pel is an increase in reliability by eliminating through-currents by more fully utilizing the properties of a magnetic amplifier, namely the property that in the forced magnetization mode obtained by inserting the throttles in series with its control windings, a parametric current limitation is provided. The working windings of the cores of the magnetic amplifier are included in the transformer arm of the half-bridge constant-voltage generator in the alternating voltage. 1 hp f-ly, 1 ill. (L

Description

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The invention relates to electrical engineering, namely to power supplies with a transformerless input, and can be used in power supply systems for automation devices, computing equipment and radio equipment.

The purpose of the invention is to increase reliability by eliminating through currents.

The drawing shows an electrical converter circuit.

The converter contains an input filter, the capacitive node of which is designed as a voltage divider from series-connected capacitors 1 and 2, whose midpoint is connected to the primary winding 6 of the transformer 7 through windings 3 and 4 of the control of magnetic amplifier 5, the second terminal of this winding is connected to point connections of opposite pins of key transistors 8 and 9, the secondary winding 10 of the transformer 7 is connected to the output terminals, the working windings 11 and 12 of the magnetic amplifier are connected to the junction of each an inverter arm with filter capacitors, the control unit is designed as a master oscillator 13 with a control transformer 14 containing primary windings 15 and 16 and output windings 17 and 18, through limiting resistors 19 and 20 connected to the control inputs of the key transistors of the converter . In series with the control windings of the magnetic amplifier, choke 21 is connected, the input of the feedback unit 22 is connected to the auxiliary winding 23 of the transformer, and the diode element 24 is connected in parallel with the output of the feedback circuit.

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his work in the forced magnetizing mode. The working windings 11 and 12 of the magnetic amplifier 5, connected in series with the key elements 8 and 9, provide a parametric current limiting of the collector currents. When the transistor 8 (9) is open, the capacitance 1 (2) is discharged and the capacitance 2 (1) is charged. The capacitance 1 (2) is discharged along the circuit: the working winding 11 (12) of the magnetic amplifier 5, the transistor 8 (9), the winding 6 of the transformer 7, the winding 3 (4) of the control of the magnetic amplifier 5, the first plate of the capacitor 1 (2).

Charge capacitance 2 (1) occurs along the circuit: plus (minus) of the power supply, operating winding 11 (12) of the magnetic amplifier 5, transistor 8 (9), winding 6 of the transformer 7, winding 4 (3) of the control of the magnetic amplifier 5, capacitance 2 (1), minus (plus) power source.

The voltage is stabilized by the control current of the magnetic amplifier 5, which is supplied from the auxiliary winding 23 of the transformer 7 via the feedback unit 22. With increasing voltage at the input of the source, the voltage at the output of the transformer winding 23 increases. This also increases the constant component of the magnetic flux of amplifier 5, which consists of two terms, one of which is due to the constant component of the current in the working windings of the magnetic amplifier, and the other the magnitude of the control current of the magnetic amplifier. In this case, the feedback unit 22 provides a reduction in the control current of the magnetic amplifier and, accordingly, a decrease in the constant component

The transducer works following a magnetic flux up to such a type.

The master oscillator 13 generates a control signal. The windings 17 and 18 of the master oscillator drive the base-zmitter transitions of the transistors 8 and 9. The voltages on these windings are in antiphase. Therefore, if transistor 8 is open, transistor 9 is closed and vice versa. The magnitude of the current in the bases of these transistors is limited respectively by resistors 19 and 20. The choke 21, connected in series with the windings 3 and 4 of the control of the magnetic amplifier 5, provides 50

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When the voltage drop across the windings of the magnetic amplifier compensates for the increased voltage at the input of the converter and at the winding 10 of the transformer 7, the voltage remains unchanged. When the voltage at the source input decreases, the feedback unit provides an increase in the control current of the magnetic amplifier and, accordingly, at the output winding 10 of the transformer 7, the voltage remains unchanged.

Introduced diode element 24 inserted parallel to the output of an ob0 block

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When the voltage drop across the working windings of the magnetic amplifier compensates for the increased voltage at the input of the converter and on the winding 10 of the transformer 7, the voltage remains unchanged. When the voltage at the source input decreases, the feedback unit provides an increase in the control current of the magnetic amplifier and, accordingly, at the output winding 10 of the transformer 7, the voltage remains unchanged.

An injected diode element 24 connected in parallel with the output of the feedback unit increases the gain of the magnetic amplifier.

Improving the operational reliability of the converter is achieved by more fully using the properties of the magnetic amplifier, namely, in the forced magnetization mode, obtained by introducing the throttles in series with the control winding, it provides a parametric current limitation. The inclusion of control windings in the capacitive shoulder of the converter ensures the use of a magnetic amplifier in its choke variant, which is characterized by better dynamic characteristics.

P-rmula of invention 20

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Claims (2)

1. Stabilized DC / AC converter containing an input filter connected to the input power terminals, the capacitive node of which is designed as a voltage divider from series-connected capacitors, the midpoint of which is connected to the first terminal of the transformer primary winding, second terminal which is connected to the point of connection of the first dissimilar power electrodes of the key transistors of the inverter, the secondary winding of the transformer is connected to the output pins, I ask generator with control transformer, output 0 five The windings of which are connected via limiting resistors to the inputs of the inverter's key transistors, the voltage regulator on the magnetic amplifier containing the working windings and the control winding, the input of the feedback circuit of which is connected to the auxiliary winding of the transformer, the middle point of which forms one of the output terminals of the feedback circuit in which, in order to increase reliability by eliminating through-currents, the working winding of the magnetic amplifier is connected in series to the circuits of the second power s electrodes key transistors included in the circuit capacitors control winding point of the compound which constitutes said mid-point circuits of capacitors and the point connecting the first capacitor to a control winding associated with the first input terminal Pi through the input choke is connected to the first output of the feedback circuit of a voltage regulator, the second output of which is connected to the second input output of the power supply. 2. The converter according to claim 1, T is characterized in that, in order to increase the gain of the feedback circuit voltage, a diode element is connected in parallel with the output of the feedback circuit of the voltage regulator. U "I