SU1198500A1 - Device for protection of a.c.power source - Google Patents

Abstract

The invention allows to increase the speed and increase the reliability of the protection device due to the fact that the CfCft 7, .. Hsjig, (CCD) current overload sensor is connected to the collector circuit of the transistor (T), connected to the diagonal of the bridge rectifier that connects the power supply network load. When a short circuit or overcurrent occurs, the voltage on the DTP turns on the light emitter of the optocoupler, the photodetector of which bypasses the emitter junction of the inserted control T, thus locking the T protection, as a result of which the load is disconnected from the network. Due to the means introduced, the load is disconnected at any half-wave of the supply voltage, as a result of which the indicated positive effect is achieved. (L 1 z.p, f-ly 1 il.

Description

;about

CX)

sd

t,

The invention relates to electrical engineering and can be used to power various electronic equipment, both for national and special purposes.

The purpose of the invention is to increase speed and increase reliability ..,

The drawing shows a circuit diagram of a device for the protection of an AC power source.

The device contains a bridge rectifier on diodes 1-4, in series with which the load 5 is connected. In one of the diagonal rectifier circuits are connected in series the current overload sensor 6 and the transistor 7 of protection. In parallel with the current overload sensor 6, the first limiting relay 8 and the light emitter 9 of the optocoupler 10 are connected in series to the base of the protection transistor 7 through the second limiting resistor 11, the collector of the control transistor 12 and its emitter are connected. through the bias diode 13 and the decoupling diode 14 is connected to the midpoint of the voltage divider 15 connected to the common bus / to the output terminal, i.e. parallel to the load 5. A capacitor 16 is connected between the emitter of the protection transistor 7 and the anode of the decoupling diode 14, in parallel with which are connected the third limiting resistor 17 and the photoreceiver 18 of the optocoupler 10 in series, and their middle point is connected to the base of the control transistor 12.

If a transformer is used as a divider, then the cathode of the spreading diode 14 is directly connected to the turns of its primary winding.

The device works as follows.

In normal operation, the protection transistor 7 is opened by the transistor 12, since the voltage taken from the current overload sensor 6 is not enough to open the light emitting 9 optocoupler 10 n by its photodetector 18. The network voltage through the bridge output 8585002

The diode 1-4 diode enters the load 5.

In the event of a short circuit or an over-current, the voltage on the current overload sensor 6 becomes sufficient to trigger the light emitters 9 of the optocoupler 10, the photodetector 18 of which bypasses the emitter junction transistor. 12, thereby locking the transistor .. 7 protection, as a result of which the load 5 is disconnected from the network.

By virtue of the means introduced, the disconnection of the load ensures: at any half-wave of the supply voltage, as a result of which the speed of protection increases and its reliability increases.

Claims (1)

1. An alternating current power source protection device containing a current overload sensor with an optocoupler emitter connected in parallel through the first limiting resistor, connected between the input and output outputs relative to the common bus of a bridge rectifier, in the diagonal circuit of which a protection transistor is connected, characterized in that in order to increase speed and reliability increase, controls are entered into it the transistor, the second and third limiting resistors, the capacitor, the bias and decoupling diodes and the voltage divider, while the collector of the control, transistor through the second limiting resistor,: is connected to the base transistor of the protection transistor, the emitter of the control transistor through the bias and disconnect  The diodes are connected to the midpoint of a voltage divider connected to the output bus with respect to the common bus, between the emitter of the protection transistor and the anode of the unlocking 0 diode included a specified capacitor, in parallel with which are connected in series the third limiting resistor and the photoreceiver of the optocoupler, average point 5 of which are connected to the base of the control transistor, and the current overload sensor is connected to the collector circuit of the protection transistor. 3 2, the device according to claim 1, which is based on the fact that the primary winding of the input transformer is used as the voltage divider.