SU1396205A1 - Device for overload protection of secondary power supply source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power supply systems for electrical and electronic devices. The aim of the invention is to extend the functionality of the device for protection against overloads of the secondary power source. The transistors 18 and 23 together with the resistors 20, 21 and 22 form a voltage conversion node between the power source 7 and the output of the protected source into a current, the output of which is connected to the input of the node consisting of elements 16, 17 and 19, operating according to the current mirror principle , Depending on the ratio of the resistances of the resistors 19, 20, it is possible to obtain both the self-reset mode after the removal of the overload, and the latch mode, which expands the functionality of the device. 1 il. Yu

Description

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O1

The invention relates to electrical engineering and can be used in power supply systems for electrical and electronic devices.

The aim of the invention is to expand the functionality of an overload protection device: a secondary power source: The drawing shows a diagram of a secondary power source with a device. for the manager,

The device contains a power supply source 1, a control unit 2, a rectifier 3, a smoothing filter 4, a resistive current sensor 5 sequentially connected in the output circuit of a source, a source source load 6, an auxiliary power source 7 resistors 8 and 9 of the voltage divider 10 I 5operational (differential | amplifier) 11, a switching diode 12 connected between the output of the operational amplifier 11 and the input; control unit 2, resistors 13, 14 feedback divider 15, the first 16 and second 17 transistors connected emitter mi to the corresponding terminals of the current sensor 5, - the third transistor 18, first resistor 19, one of the terminals connected to the collector of the first transistor, a second resistor 20, one of the terminals podklyucheiny to the emitter of the third transistor 18; the third 21 and fourth 22 resistors, one of the terminals connected to the base of the third transistor 18, the fourth transistor 23, the diodes 24 and 25 of the rectifier, the transformer 26, the elements 27 and 28 of the smoothing filter 4.

Auxiliary power supply 7 is connected by the first output to the connection point of elements 6 and 10, the second to the second terminals of the first 19, second 20 resistors and the second edge of the voltage divider 10.

The device works as follows.

In normal operation, t-, nd. in the absence of overload, the output of the power supply source 1, controlled by the unit 2, supplies the load 6. In this mode, the voltage at the inverse input of the amplifier 11 is less than that of the resistor 8, i.e. the voltage at the output of amplifier 11 is low, and diode 12 is biased in the opposite direction. When overcurrent increases, the voltage on the collector of transistor 16 and the inverse of the input of amplifier 11 becomes larger than that of resistor 8. The voltage at the output of amplifier 11 increases, diode 12 is displaced in the forward direction, which leads to voltage variation at the output of the divider 15, causing a decrease in output voltage. This leads to an increase in the current of the transistor 18, to an increase in the voltage across the collector of the transistor 16, to a further decrease in the output voltage and to the operation of the protection.

The proposed device can provide both a latching mode (i.e., a triggered effect) and a self return after the removal of the overload depending on the ratio of the resistances of the resistors 19 to 22.

Invention Formula

Device for protection against overloads of the secondary power supply source equipped with a control unit whose input through a measuring voltage divider is connected to the output pins of the source S containing a resistive current sensor.- intended for series connection to the output circuit of the protected source, the first and second transistors connected to the emitters to the corresponding in 1vodam current sensor, the third transistor, the first resistor, one of the conclusions connected to the collector of the first transistor, the second resistor o one of the terminals connected to the emitter of the third transistor, the third and fourth resistors, one of the terminals connected to the base of the third transistor, a resistive voltage divider, one of the extreme terminals of which is intended to be connected to one source of the protected source not connected to the sensor A current diode and auxiliary power source, characterized in that, in order to extend the functionality, a fourth transistor and a differential amplifier are introduced, the first output of the auxiliary power chnika power connected to said terminal of the resistive voltage divider and a second terminal connected to the second terminal of the first, second resistor and a second end terminal of the resistive voltage divider, the first and second base tranzis313962054

tori connected to the collectors of the secondary power supply, with the inputs of the diffgo and third transistors, the second differential amplifier connected

the findings of the third and fourth resistor respectively to the collector of the first

The ditch is connected respectively to the emitter transistor and the middle terminal to the resistor of the second transistor and the connecting voltage divider, and the output

The base of the fourth trans-collector is intended to be connected via

the resistor, the emitter of which is connected to the diode to the input of the control unit of the security device to the second output of the auxiliary source.

Claims (1)

Claim A device for overload protection of a secondary power supply25 equipped with a control unit, the input of which is connected through a measuring voltage divider to the output terminals of the source, containing a resistive current sensor ... designed for sequential connection of the protected source to the output circuit, the first and second transistors connected emitters to the corresponding terminals of the current sensor, the third transistor, the first resistor, one of the terminals connected to the collector of the first transistor, the second resistor, ne of the conclusions is connected to the emitter of the third transistor, the third and fourth resistors 4Q, one of the conclusions soedinennye.s base of the third transistor, a resistive divider will strain Nia, one of the most extreme vyvodov'kotorogo designed to connect to 45 to the output terminal of the protected source, not connected to the current sensor * diode and auxiliary power supply, characterized in that, in order to expand the functionality50, a fourth transistor and a differential amplifier are introduced, the first output of the auxiliary power supply connected to the output terminal of the resistive 55 divider voltage, and the second terminal is connected to the second terminals of the first, second resistors and the second extreme terminal of the resistive voltage divider, the base of the first and second trans are connected to the collectors of the second and third transistors, the second terminals of the third and fourth resistors are respectively connected to the emit- ters $ second transistor and connected base and collector of the fourth transistor, the emitter of which is connected to the second terminal of the auxiliary used. power supply, while the inputs of the differential amplifier are connected respectively to the collector of the first transistor and the middle output of the resistive voltage divider, and the output is designed to be connected through a diode to the input of the control unit of the protected source.