SU1229919A1 - Converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power sources. The purpose of the invention is to increase the reliability of the converter by ensuring its protection against overvoltages and overloads at the output. In the absence of an emergency, the protection node does not affect the operation of the device. Overloading leads to a signal at the input of the optocoupler 13, turns on its thyristor, causing the unlocking current of the transistor (T) 17. Unlocking the T 17 leads to the opening of the triac 14, which short-circuits the winding

Description

The invention relates to converter equipment and can be used in the development of secondary power sources of electronic equipment.

The purpose of the invention is to increase the reliability of the converter by ensuring its protection against overvoltages and overloads at the output.

FIG. 1 shows a functional diagram of the converter with one output; in fig. 2 - construction of protection against overloads and overvoltages of the converter with n outputs.

The converter contains an inverter, made by the bridge circuit on transistors 1 and 2, capacitors 4 and 3, transformer 5 with primary winding G, windings 7 and 8 with positive feedback, secondary winding 9; a single pulse triggering unit 10, an output rectifier 11, which in the case of a stabilized output consists of a rectifier, a filter and a voltage regulator, and in the case of a non-stabilized output — of the first two elements, a protection node having a control stage 12 with an opto-thyristor 13 on the output, the actuator, performed on a controllable switch with two-sided conductivity, for example, a triac 14, an auxiliary rectifier 15 with a capacitor 16 at the output, a transistor 17 and a resistor 18 and 19.

In the absence of an emergency at the output of the converter, the thyristor 13 of the optocoupler is locked, therefore, transistor 17 and triac 14 are locked, therefore, the protection node does not affect the operation of the converter.

Overvoltage or overload at the converter output leads to a signal at the input of the optocoupler 13, as a result of which its thyristor is turned on, causing an unlocking current limited by the resistor 19 in the base circuit of transistor 17 from the output of the auxiliary rectifier 15. 18 by the collector current, unlocking the triac 14. The latter short-circuits the winding 6, therefore, the voltage on the windings 7 and 8 becomes equal to zero, which leads to the locking of the transistors 1 and 2 and to the breakdown of the inverter generation. The output of the converter is de-energized, the capacitor 16 is discharged, the transistor 17 and the triac 14 are locked.

0 5

0

0

In this state, the converter remains until the input voltage is turned off and re-activated, because the start pulse from node 10 comes once after the input voltage is turned on.

In order to reliably disrupt the generation of the inverter, the capacitance of the capacitor 16 is recommended to be selected by proportion.

C - ST

IRIT

where T is the inverter conversion period. The use of an inserted transistor, two resistors, and an auxiliary rectifier with a capacitor at the output increases its reliability by providing protection against overloads and overvoltages at the output.

Claims (1)

Invention Formula A converter containing a push-pull transistor auto-sweep; a bridge-type inverter with an AC diagonal of which is connected to the primary winding of the transformer, and a positive feedback winding through a resistor to the control transition of each transistor, a single pulse triggering node, an output rectifier, a protection node, consisting of a control cascade, an input connected to the output pins of the converter, and an actuator in the form of a controlled key with double-sided conductivity connected to the transducer transformer, in order to increase the reliability of the device by providing its protection against overvoltages and overloads at the output, the first and second resistors, the transistor and the auxiliary rectifier with a capacitor at the output are inserted into it, while the auxiliary the rectifier is connected to the positive feedback winding, which has a common point with the diagonal of the alternating current of the inverter, and the input of the control switch with two-sided conductivity to the output of the auxiliary rectifier through the first a resistor and an emitter-collector of the transistor, whose control junction is connected to the output of the auxiliary rectifier via the second resistor and the output of the control cascade. FIG. g