SU1647819A1 - Voltage converter - Google Patents

Abstract

The invention relates to converter equipment and can be used in secondary power sources of electronic equipment, for example, in computer power sources. The purpose of the invention is to simplify and increase the KDP. The converter contains a mains rectifier 1, which is connected to the filter capacitor 11 and the push-pull transistor-transformer inverter 12 through the resistor-thyristor 2, and performed on resistor 3 and thyristor 4. transformer 14 is connected to the thyristor control circuit 4. The trigger node is an RC pulse generator, made on a single junction transistor 6 and RC circuits (resistor 7 and capacitor 8, resistor 9 and condenser 10). Connecting the power supply of the start-up unit 5 parallel to the resistor-thyristor limiter 2 and the output of the start-up unit 5 to the auxiliary winding 13 of the transformer 14 eliminates the need to use an additional power source to operate the start-up unit, and in the start-up unit to form the start-up pulse generator and eliminate power consumption start-up circuit after starting the inverter. 1 il. it In

Description

The invention relates to a conversion technique and can be used in secondary power supplies of electronic equipment, for example, in computer power supplies.

The purpose of the invention is the simplification and increase of efficiency.

The drawing shows the Converter.

The voltage converter contains a network rectifier 1. Thyristor-thyristor limiter 2, made on a resistor 3 and thyristor 4, a trigger unit 5, which is an RC pulse generator, made on a single-junction transistor 6 and RC circuits (resistor 7 and capacitor 8, resistor 9 and a capacitor 10), the power supply circuit of this generator is connected in parallel with a resistor-thyristor 20 side limiter 2, a capacitive filter 11 and a push-pull transistor-transformer inverter 12, in which the auxiliary winding 13 of the transformer 14 is connected It is connected to the control circuit of Tiri-25 stor 4 and the output of the start unit 5 (base of a single-junction transistor 6).

The converter operates as follows.

When the converter is turned on from the output voltage of the mains rectifier 1, the capacitor 11 starts charging through the resistor 3, which limits the charging current; from the voltage drop across the resistor 3, the capacitor 10 charges through the resistor 9 and the capacitor 8 charges through the resistor 7. At the time when the voltage across the capacitor 8 reaches half the magnitude of the voltage across the capacitor 10, saturation occurs, the base of the single-junction transistor 6 and the capacitor 8 is discharged into the auxiliary winding 13 of the transformer 14. The time constant of the circuit 7- 8 5 is chosen such that the operation of the single-junction transistor 6 occurs when the current through the current-limiting resistor 3 decreases to a value at which the inrush when opening 10 of thyristor 4 does not exceed the value acceptable for the network rectifier 1. The discharge pulse of the capacitor 8 causes the inverter 12 to start. The emf that occurs during the inverter 12 of the auxiliary 15 of the winding 13 of the transformer 14 causes the thyristor 4 to turn on, which closes the current-limiting resistor 3 and the power circuit of the start-up unit 5, which eliminates the restart of the inverter 12 and further energy consumption by the unit 5 launch.

Claims (1)

Formula of the invention A voltage converter containing a network rectifier, which is connected through a resistor-thyristor limiter to the filter capacitor and the input of a push-pull transistor-transformer inverter, the auxiliary winding of the output transformer of which is connected to the thyristor 30 resistor-thyristor limiter control circuit, and a start-up unit consisting of RC a single-pulse generator made on a single-junction transistor, characterized in that, in order to simplify and 35 increase the efficiency, the input supply unit connected parallel rezistornotiristornomu start delimiter, and the output of the activation unit is connected to the auxiliary winding of the output transformer.