SU474880A1 - Device for overcurrent protection - Google Patents

Description

Soros triode 8 and for direct switching on recording triode 14. Divider on resistances 28, 29 are predisposing to isolate the pulsations necessary for operation of time relay 3. Resistance 30, connected in series with diode 31 between time relay output and triode emitter /; - р- / g type 17 | overload 2, designed to adjust the duration of the recording pulse to compensate for the technological variation of the counter parameters.

When the current in the protected network does not exceed the protection setpoint (the signal is in absolute magnitude less than the reference voltage L / on), the diode 22 of the starting node is closed, closed and the diode 23 with a positive source voltage.

Thus, a positive feedback circuit of the comparator breaking and generation does not occur. The comparator triodes with respect to the direct current of the current circuit under the circuit with a common base and are previously in active mode.

As the current increases in the network, the signal U, K increases accordingly, and at a certain value equal to the magnitude of the reference voltage f / ,,,,, the diode 22 of the starting node opens and a short feedback circuit from the base of the triode 16 to the triode collector appears. / 7 through the co-sensors 24, 25, as a result of which the leading edge of the pulse is formed. In this case, both triodes are opened and the blocking potential is removed from diode 23. A further short circuit of the positive feedback occurs on this diode. The pulse duration is determined on the one hand by a constant time of the chronizing C-circuit (2 (9, 21, and on the other hand, by the total value of the load equal to the value of parallel-connected dividers with resistances of 26, 27 and 28, 29. At the same time, the duration of Mpulse decreases with increasing load.

Thus, the instant of the onset of overload is determined by the emitter resistance / 5 of the triode 16. When a generation occurs, a negative pulse with an amplitude determined by the voltage divider (26, 27) is applied to the base of the reset triode 8, as a result of which the last opens and a blockage occurs -process due to the presence of magnetic positive feedback to the base of the triode. When this happens a complete reversal of the core to its original state, PEC. After charging the capacitor // to the magnitude of the amplitude of the starting pulse, the reset process ends and the time delay begins.

Timer 5 has two modes of operation: the time delay counting mode and the recovery mode. In the recovery mode, which occurs every time after the countdown of the next time delay and which is synchronized with the impulse of the overload relay 2,

the second time relay output receives a negative potential equal to the voltage of the EC power source, and the first time relay output receives a potential equal to the potential of the common point of the circuit. In the time delay reference mode, the opposite is true: the first output receives a high negative potential, close to the loss of the EC, and the second output receives the potential equal to the potential of the common point of the circuit.

Thus, the pulse recording is performed only in the resize mode, when a pulse from the output of the overload relay

2, and a negative potential is applied to the collector of the same triode through the winding of record 15. Obviously, the duration of the recording pulse is determined by the pulse duration of the overload relay 2.

When the magnetic counter is filled with 4 write pulses, the magnetic core is saturated with one of the following recording pulses, but around which a reverse surge sharply increases on the counter winding

the voltage, at which the magnitude of this surge on the winding 10 reaches a value sufficient to open the reset triode 8, as a result of which the core is re-magnetized to its original state. Induced at the same time on

The reset winding 10 pulse can be used to trigger the output of the transponder.

Magnetic cores have a rather significant technological variation of parameters, therefore it is necessary to be able to regulate the duration of a recording pulse within sufficiently wide limits. In addition, in accordance with the thermostability conditions, it is necessary to have a stable recording pulse duration, which is easily obtained using a home comparator. In the comparator, the duration of the pulse depends only on the ratios of the load resistance and the resistance 20 and on the time constant of the chroning / C-circuit.

The pulse duration is regulated by periodically connecting a supplementary load at constant values of resistance 20 and any other load: the complexor. At the time of recording, the time relay output has a potential that is almost equal to the potential of the common point of the circuit, and the diode 31 is open. In this case, an additional load in the form of a resistance 30 is connected to the comparator. In the time delay mode, the first output has a high negative potential, the diode 31 is closed and an additional

loading does not take place. In this case, the additional load does not complicate the start of the comparator, since the time relay 5 starts only after the end of the formation of the leading edge of the pulse

comparator.

5 Subject of the invention

A device for overcurrent protection comprising a current sensor, the output of which includes an unloading relay with a potential pulse input, made in the form of a comparator, a magnetic storage pulse counter and a time relay with two outputs, characterized in that, in order to simplify and improve reliability, im6

the pulse output of the overload relay is connected to the triode base of the magnetic counter counter recording, to the collector of which one terminal connects the record winding of this counter, the second output of which is connected to one of the time relay outputs, and the second output of this relay is connected through a diode and resistor to the triode emitter p- The type of the mentioned overload relay.