SU924787A1 - Protection device - Google Patents

Description

(5) DEVICE FOR PROTECTION

I

The invention relates to electrical engineering, namely, devices for protection against overload currents and short circuits of secondary power sources.

A device for protection against overcurrent and short circuits, containing a resistor current sensor, a threshold element - a tunnel diode, a transistor, the output of which is connected to the executive element lj, is known.

The main drawback of the device is the presence of galvanic communication between the actuator and the protected circuit.

The closest in technical essence to the present invention is a protection device comprising a resistor current sensor, a ballast resistor, a tunnel diode connected to the base-emitter junction of the transistor, an isolation element, an actuator 2}.

The disadvantage of the device should be limited functionality, since the output voltage supplied to the executive body does not contain information about the degree of circuit overload. The device cannot be used for protection of AC circuits. In addition, the circuit is rather complicated, since it is necessary to have a power supply for the collector circuit of the transistor.

The purpose of the invention is to expand the functionality of the security device and simplify its design.

Claims (2)

This goal is achieved by connecting the collector of the transistor through the primary circuit of the galvanic isolation element to the first terminal of the resistor current sensor, to the same terminal through the ballast resistor the connection point of the tunnel diode and the base of the transistor, another terminal of the tunnel diode and The emitter of the transistor is connected to the second terminal of the resistor current sensor, and the executive body is connected to the secondary circuit of the galvanic isolation element. The drawing shows the electrical circuit of the protection device. The protection device contains a resistor current sensor 1, to which a threshold element is connected via a ballast resistor 2 - tunnel diode 3, transistor k, galvanic isolation element 5, actuator 6,. If the device is used to protect the AC circuit, then a protective diode (not shown) must be connected to the transistor collector consequently. How the element is made; galvanic isolation of the principal 5 banner has not. It can be an optoelectronic pair or a transformer, as shown in the drawing. The resistance value of the ballast resistor 2 is selected from the operating conditions of the tunnel diode 3 in the relay mode. The resistance of the current resistance sensor 1 is calculated so that when it flows through it equal to the protection tripping current, the tunnel diode 3 is turned on (the turned-off state of the tunnel diode corresponds to a small voltage drop across it, the bigger one). The protection device operates as follows / When a current flows through the protected circuit that does not exceed the magnitude of the operation current, the voltage drop across the resistor sensor 1 of the current H is large and the tunnel diode 3 is turned off. In this state, the voltage drop across it is small, therefore the open and collector current 9 is present; the voltage on the primary and secondary windings of the transformer 5 is zero. Executive unit 6 is in standby mode. If the circuit increases the current beyond the permissible, then the tunnel diode 3 will turn on and the voltage across it will jump. From the closed state, the transistor k will switch to sailing mode and a voltage will be applied to the primary winding of the transformer 5 proportional to the current in the circuit to be protected. The occurrence of voltage on the rychal winding of the transformer 5 will actuate the actuator 6. Due to the fact that the voltage of the secondary winding is also proportional to the current in the protected circuit, the work of the executive body 6 can be made dependent on the degree of overload and is aimed at instantaneous disconnection of the circuit, delayed shutdown, or a change in the automatic reclose cycle . The proposed protection device contains fewer components than the known one, it does not require a special source to power the collector circuit of the transistor. The simplicity of the design allows them to be manufactured as separate units, structurally combined with resistor current sensors, to be installed directly in the bus of the protected circuits. Claims An overcurrent protection device comprising a resistor current sensor, a ballast resistor, a tunnel diode connected to the base-to-emitter junction of a transistor, a galvanic isolation element, an actuator, against that, in order to expand the functionality and simplify the design, the collector of the transistor is connected to the first output of the resistor current sensor through the primary circuit of the electroplating isolation, to the same output through the ballast resistor The junction point of the tunnel diode and the base of the transistor, another terminal of the tunnel diode and the emitter of the transistor are connected to the second terminal of the resistor current sensor, and the actuator is connected to the secondary circuit of the galvanic isolation element. Sources of information taken into account in the examination 1. Baum A, K. and others. Tunnel diodes in the circuits of industrial electronics. L., Energie, -1965, p., Fig. On, 2. Electric machines of alternating current. 2. L., Energie, 197, p. 42-.  four