SU1365300A1 - A.c. to d.c. voltage converter - Google Patents

Abstract

The invention relates to converter equipment and can be used in systems and sources of secondary power supply for electronic equipment. The aim of the invention is to increase reliability. When alternating current is switched on, the charge of the storage capacitor 2 of the filter of the slider 1 passes through the voltage divider across resistors 7 and 9, shunt the thyristor 3. The control transition of the thyristor 3 is bridged by the transistor 6, the base of which is connected to the middle terminal of the divider at resistors 7 and 9. One output of the rectifier 1 is connected to the input of the converter 11 of the direct voltage directly, and the other through a current sensor 5. Moreover, the voltage drop on the sensor 5 that occurs when the input current of the converter increases 11, through the limiting resistor 10 turns on the thyristor 3. When the thyristor 3 is locked, the converter 11 is powered by the storage capacitor 2 through diode 4. 1 sludge. ABOUT)

Description

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This invention relates to electrical engineering and can be used in secondary power supply sources with transformerless input.

The purpose of the invention is to increase the reliability of the variable-voltage-to-constant converter.

The drawing shows a circuit diagram of a variable-voltage-to-constant voltage converter.

Converter contains rectifier 1, direct current output

flowing through the first resistor 7 and the blocking capacitor 8 to the base of this transistor. In this case, the control input of the thyristor 3 turns out to be an accelerated transition of the collector-emitter transistor 6, therefore the charging of the storage capacitor 2 is performed through the first 7 and second 9 resistors.

At the point in time at which the current in the base circuit of transistor 6 decreases to the value that ensures its locking, the second pa

the thyristor 3 is periodically turned on due to the current flowing from the rectifier 1 to the constant voltage converter 11 through

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connected to the cumulative condensation-15 bots converter. In this mode, the torus 2 through the thyristor 3, which is bridged by a diode 4, connected in the opposite direction, through an electric shunt 5. To control the thyristor 3 is a transistor 6, which has a 2 shunt 5. The fall of the voltage is a collector-emitter junction switched between the control electrode and the cathode of the thyristor 3, the base of the transistor 6 through the first resistor 7, shunted by the blocking capacitor 8, is connected to the anode of the thyristor 3 and the cathode of the diode 4 and through the second resistor

9 with its emitter, and the point of connection of the electric shunt 5 with the anode of diode 4 through the third resistor 10 with the control electrode of the thyristor 3. Between the bus Plus rectifier 1 and the anode of diode 4 a constant voltage converter 11 is turned on.

Electric shunt can be made in the form of a resistor or in the form of a drossel, the output of the third resistor

10 must be connected through diode 12 (shown in dotted lines).

An alternating voltage converter - 40 into a permanent one works in the following way.

thirty

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The latter is applied to the thyristor control input 3 through the third resistor 10. The periodic charging of the storage capacitor 2 is provided via the open thyristor 3. The charging current is limited by the limited increase rate of the half-wave of the supply voltage. The thyristor 3 is turned off at the maximum of each half-wave of the supply voltage due to the natural blocking of the diodes of the high voltage 1.

In the pause between the current pulses that flow through the rectifier 1, the DC / DC converter 11 is powered through the diode 4 from the storage capacitor 2..

Most effectively, the proposed converter operates from a three-phase AC network by selecting the transistor turn-off threshold

In the initial state, the storage capacitor 2 is discharged, the thyristor 3 and the transistor 5 are in the closed state.

The processes in the circuit are considered in two operating modes: the switching mode, characterized by the supply of the mains voltage to the input of the rectifier of the capacitor 2 to a steady state, and the steady state, characterized by a periodic charge of the storage capacitor 2 due to the inclusion of the thyristor 3.

When the mains voltage is applied to the input of the miter 1 when the storage capacitor 2 is charged, transistor 6 is turned on by the current.

the thyristor 3 is periodically turned on due to the current flowing from the rectifier 1 to the constant voltage converter 11 through

bots converter. In this mode, the electric shunt is 5. Falling -

five

5 bots converter. In this mode, the electric shunt 5. Falling -

0

0

five

five

0

The latter is applied to the thyristor control input 3 through the third resistor 10. The periodic charging of the storage capacitor 2 is provided via the open thyristor 3. The charging current is limited by the limited increase rate of the half-wave of the supply voltage. The thyristor 3 is turned off at the maximum of each half-wave of the supply voltage due to the natural blocking of the diodes of the high voltage 1.

In the pause between the current pulses that flow through the rectifier 1, the DC / DC converter 11 is powered through the diode 4 from the storage capacitor 2..

Most effectively, the proposed converter operates from a three-phase AC network by selecting the transistor turn-off threshold

The moment of switching on the diode rectifier 1. I.

When powering the pre-consumer from a single-phase network, it is necessary to select the operation mode of the constant-voltage converter 11 so that it is turned on under voltage, which exceeds the threshold of the transistor. If the specified mode of operation is not fulfilled, the storage capacitor may not be connected to the output of the network rectifier 5 at the time required to charge it from the supply voltage. In this case, the DC-DC converter 11 is powered by the rectifier 1 without a capacitive filter.

Claims (1)

Invention Formula AC-to-DC converter containing a switch, input connected to input terminals and output connected to series-connected storage capacitor and thyristor, with one output of storage capacitor connected to the first input of DC-DC converter output of which is connected to output terminals , a voltage divider, connected at extreme to the anode and cathode of the thyristor, and connected to the base of the transistor, the collector of which 0 five connected to the thyristor control terminal and the first terminal of the limiting resistor, the transistor emitter is connected to the thyristor cathode, characterized in that, in order to increase reliability, an electric shunt and a diode are inserted into it, the first output of the electric shunt being connected to the second input of the constant transducer voltage, anode of the diode and the second terminal of the limiting resistor, the second output of the electric shunt is connected to the cathode of the thyristor, and the cathode of the diode is connected to the common point of the storage capacitor and ano yes thyristor.