SU410376A1 - - Google Patents

Description

one

The invention relates to electrical engineering and can be used in electrical devices, B particular IB stabilized power sources with a series connection of the regulating transistor.

There are known devices for protecting the stabilizer against overcurrent, which contain a blocking transistor connected in series with the load, and a control circuit for this transistor.

However, the control circuit of the known devices is made on a tunnel diode, iB, with the result that there is no possibility of smoothly adjusting the protection response current, since the maximum current of the tunnel diode, upon reaching which the protection device operates, fluctuates within very wide limits.

The aim of the invention is to eliminate this drawback, as well as to reduce the difference between this current and the maximum operating load current.

This goal is achieved by the fact that the control circuit is made on a transistor connected by its electrodes to a blocking transistor electrode, respectively, by an emitter to an emulator, a collector to a base in the base through a resistor to a collector.

The drawing shows a diagram of a device for protection against overcurrent.

The device is made on two transistors 1 and 2. The emitters of both transistors are connected to the minus of the supply voltage. The base of the transistor 2 through a resistor 3 is connected to the collector of the transistor 1. The base of the transistor

1 and the collector of the transistor 2 are combined and connected via a resistor 4 to the positive side of the load 5. Between the base and the emitter of the transistor

2 includes a capacitor 6 and a resistor 7.

When the load current does not exceed the set protection tripping current, transistor 1 is open and is in saturation mode. Through the collector junction of this transistor flows the entire load current 5.

Transistor 2 is locked.

When the load current reaches the value of the protection actuation current, the transistor switches from saturation mode to amplification mode. With a further increase in the load current, the voltage between the collector and the emitter of this transistor sharply increases, which leads to the opening of transistor 2. Due to the presence of positive feedback, this process is an avalanche.

The circuit goes into a new steady state, in which transistor 1 is completely closed and transistor 2 is saturated.

After tipping the circuit, the load current is mainly determined by the greater resistance of the 3 n resistor to be less than 0.5% of the maximum operating current. The adjustment of the Toiwi protection actuation is made by selection. resistance of the resistor 4. For sauuiTbi from sravat va P when connecting smkost 1st 1 load II ori triggered: device. Subject and cost factor A device for protection of the stabilizer against overcurrent, containing a locking, switching on 1s supplator with load, and a wiring circuit 1 and this tracer, in order to ensure a smooth current adjustment to trigger your 1 and devices, as well as decreasing the ramp) with this current and the maximum operating load current, the control circuit is made on a transistor connected by its own M electrodes to the electrodes of the closing transistor corresponding to the emitter to the emitter, the collector to the base through a resistor - to the collector.

t Oh

rV V