SU1597877A1 - Comprehensively protected power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in various power supply systems. The purpose of the invention is to increase reliability and enhance functionality. A transistor switch 5 is inserted into the protection unit 3, which is opened in case of an increase in the output voltage and bypasses the resistor 14 of the output voltage divider 4. The device is turned off. 1 il.

Description

The invention relates to electrical engineering and can be used in various power supply systems of radio equipment, computers and communications.

The purpose of the invention is improving reliability and expanding functionality.

The drawing shows an electrical diagram of a power source with integrated protection.

The power supply with integrated protection contains a voltage converter 1, the outputs of which are connected to the input terminals of the voltage stabilizer 2, a protection unit 3, which includes an output voltage divider 4 connected in parallel with the output terminals of the voltage stabilizer 2, a transistor switch 5, assembled on the transistor 6, to the base-emitter junction of which a voltage divider 7 is connected, connected to the output terminals of the voltage stabilizer 2, the collector of the transistor 6 is connected to the output of the voltage divider 4 niya, node 8 protection against excessive load current, consisting of a current sensor 9 connected in series with the output terminal of the voltage stabilizer 2, to the current sensor 9 is connected the base-emitter junction of the transistor 10, the collector of which is connected to the output of the output voltage divider 4, the comparator 11 voltage ', to the inverting input of which voltage is supplied from the output voltage divider 4, and to the non-inverting input - voltage from the voltage divider 12, the output of the comparator 11 is connected to the control input of the converter 1 h Res actuator assembly 13, the resistor 4 14.delitelya output voltage.

As a voltage converter 1, a transformer or an oscillator with rectifiers and filters can be used. The voltage stabilizer 2 can be compensatory type or pulse. The voltage comparator 11 can be implemented, for example, on the K554CAZ chip.

As an actuating unit 13, for example, a thyristor providing forced burning of fuses, a simulator installed in the transformer primary winding circuit, and an optocoupler thyristor providing disruption of the converter generation can be used.

The power source operates as follows.

When connected to a power source of the input voltage to the input of the voltage stabilizer 2 is applied voltage generated in the voltage Converter 1. Voltage stabilizer 2 stabilizes the output voltage.

Under normal conditions of operation of the voltage stabilizer 2, a logical 0 is formed at the output of the voltage comparator 11, since at its inverting input the voltage applied from the output voltage divider 4 is greater than the voltage that is supplied to the inverting input of the voltage comparator 11 supplied to the input from the divider Ί2 reference voltage. The base-emitter junction of the transistor 6 receives voltage from the divider 7, insufficient to unlock it. The transistor 10 is also closed. With a decrease in the output voltage of the voltage stabilizer 2, the voltage at the inverting input of the comparator 11 decreases and when a certain value is reached, it becomes less than the voltage at the non-inverting input of the comparator 11 coming from the voltage divider 12, which leads to the appearance of a logic 1 voltage at the output of the comparator 11, which leads to the actuation of the Executive node 13, which de-energizes the inputs of the voltage stabilizer 2, providing its protection against a decrease in the output voltage. A thyristor, which provides forced burning of fuses, a triac installed in the primary circuit of a transformer, an optocoupler thyristor, which provides a breakdown of the converter's generation, can serve as an executive unit. When the load current increases, the voltage drop across the resistive current overload sensor 9 increases. When this voltage is increased to a predetermined value, the transistor 10 opens, bypassing the resistor 14 of the output voltage divider 4. The voltage at the inverting input of the comparator decreases and the voltage at the non-inverting input becomes smaller. At the output of the comparator 11 voltage appears logical 1. The Executive node 13 de-energizes the voltage Converter 1. . ₍

Similarly, the power source turns off when the output voltage increases, since when the output voltage increases and reaches a certain value, the voltage on the voltage divider 7 becomes sufficient to unlock the transistor 6, shunting the resistor 14 of the output voltage divider 4.

The proposed power supply provides the setting of the protection device even if the difference between the two thresholds of the comparator does not exceed the direct voltage drop across the diode (0.7 V), which allows to expand its functionality.

Claims (1)

Claim A power supply with integrated protection, comprising a voltage converter connected to the power inputs of the voltage regulator by power outputs, a protection unit consisting of an output voltage divider connected parallel to the output terminals of the voltage regulator of the voltage divider, to the ⁵ output of which a non-inverting input of the voltage comparator is connected, inverting the input of which is connected to the output of the output voltage divider, and the output is connected to the input of the executive unit, the output connected to a branching input of a voltage converter and a node for protection against interruption of the load current on the transistor 15 and a current sensor connected in series with the output terminal of the voltage stabilizer, characterized in that, in order to increase reliability while expanding the functionality, a transistor key is inserted into the protection unit, to the base-emitter junction of the transistor which is connected to the output of the voltage divider, the inputs of which 25 are connected to the output terminals of the voltage regulator, and the collector of the transistor is connected n to the output of the divider output voltage, wherein the transistor unit protection against excess load current 3Q base-emitter junction connected in parallel with the current sensor and a collector connected to the output of the divider output voltage.