SU1277281A1 - Device for current protection of loads against overload - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary sources for writing electronic equipment. The purpose of the invention is to simplify and increase the reliability of the device. The goal is achieved by introducing low-power transistor optocouplers 7 and conventional diodes 9 according to the number of loads to be protected and using only one threshold organ 10 for n number of loads connected in parallel, as well as using non-contact elements as safety switches. 1 h, para. f-ly, 1 ill. l e CX)

Description

The invention relates to electrical engineering and can be used in secondary power sources of electronic equipment.

The purpose of the invention is to simplify and increase the reliability of the device.

The drawing shows a diagram of the device.

The device for overcurrent protection of loads against overload contains a power supply 1, to the output of which loads 2 are connected in parallel with which protection switches 3 are connected, which are low-power thyristor 4, the anode of which is connected to the input of the power supply, and the cathode with transistor 5 base PNP-type - to resistors 6, low-power transistor optocoupler 7, the anodes of the diodes which are connected to the current sensors 8, and the cathodes of the optocouple diodes through protective diodes 9 are connected to the input of the threshold organ 10, the output of which via the collector-emitter circuit of the opto-op with the perpendicular outputs of the safety switches.

The threshold element may have different circuitry, for example, a chip of type 142EP1.

The device works as follows.

In normal mode, when the current flows through the load 2 and the transistor of the protective switch 3 is opened (opens automatically), the sensor 8 has a voltage drop sufficient to unlock the optocouplers, but not sufficient to trigger the threshold element 10. Therefore, from the output of the threshold element 10 through the circuit the collector-emitter of phototransistors of optocouplers 7 signal to the control input of the protective switches is not received.

As the current across any load circuit increases to a certain value, the voltage drop across the sensor 8 increases, as a result of which a sufficient voltage is created at the input of the threshold organ 10 to trigger it.

Due to the flow of current through the diodes of the optocouplers, the corresponding phototransistor opens and, after the threshold organ 10 is triggered, the signal from its output goes through the collector-emitter circuit of the opened

the phototransistor to the first output of the protective switch 3 (to the control input of the thyristor, which operates and brings the transistor to the closed state by applying a higher potential to the base from the input of the power source), which operates and locks the load circuit. After locking the load circuit, the voltage on the sensor 8 drops and the corresponding optocoupler diode closes, thereby ensuring the readiness of the next protection circuit.

During the action of an overcurrent on any circuit, the remaining diodes of the optocouplers 7 are blocked by a large voltage from the sensor in the circuit where the overload has occurred. Protection against reverse voltages of optocouplers is determined by protective diodes 9.

Simplification of the proposed device is achieved as a result of using only one threshold organ for the fifth number of loads connected in parallel, as well as reducing the total number of elements of the device, and increasing the reliability of the device is achieved by using contactless devices as safety switches. when opening and closing: consumption current consumption.

Claims (2)

1. Device for current protection of loads against overload, containing; current sensors and safety switches 0 by the number of protected loads, the threshold organ and the power source, while the inputs of all loads are interconnected, which is different from the fact that, in order to simplify and increase the reliability of the device, low-power transistor optocouplers and protective diodes are additionally introduced the number of protected loads, while the point The connection of the inputs of the loads is connected to the positive terminal of the power source, the outputs of the loads are connected to the inputs of the corresponding safety switches, the detectors, the first switches, are connected to the phototransistors of the corresponding low-power transistor optocouplers, the second output switches of the protective switches are connected to the first inputs of the corresponding sensors, and the second inputs of the corresponding sensors are connected to the first inputs of the corresponding sensors. connected to adjustable outputs of the respective sensors current cathodes of diodes of low-power trlstistor wholesale pairs connect to the corresponding anodes of protective diodes whose cathodes are connected together and to the input of a threshold body organ first threshold output is connected to kollektsfami phototransistors of photocouplers low-power transistor and the second sensor output and the threshold body connected to the negative terminal of the power supply, 2. The device according to claim 1, characterized in that each protective switch is made up of a low-power thyristor, a resistor, and a P-H-P type transistor, where the low-power thyristor anode is connected to the positive terminal of the power source, the low-power thyristor cathode is connected to PNP type transistor base and to the first output of the resistor, the PNP type transistor emitter is the input of the safety switch, the collector of the PNP type transistor is the second output of the safety switch, the second output of the resistor is connected to the negative terminal pitaki1P source and a low-power control electrode of the thyristor is the first output of the protective circuit breaker.