SU1104594A1 - Device for speeding up in turn-on of electromagnet - Google Patents

Abstract

A DEVICE FOR FORCED ELECTROMAGNET SWITCHING, containing leads for connecting the winding of the electromagnet, current limiting resistor, transistor, capacitor, charging and auxiliary resistors, IIDid trigger, two diodes and power wires for connecting the power source, and terminals for connecting the winding of the electromagnet, and the driver and the driver, and two diodes and wires for connecting the power source, and the terminals for connecting the winding of the electromagnet and I and I, and a diode and a switch, and two diodes and wires for connecting the power source, and the terminals for connecting the winding of the electromagnet and a switch, and I and I, and two diodes and wires for connecting the power source, and the terminals for connecting the winding of the electromagnet and I and I, and I and a diode and two diodes, connected to the terminals for connecting the power source, capacitor, charging and additional resistors are also connected in series and with the leads for connecting the power source, the connection point of the charging and auxiliary resistors is connected to the Schmidt trigger input, the output of which is connected through the first diode to the base of the transistor, the emitter-collector junction of which is connected in parallel to the current limiting resistor, characterized in that device, the second transistor is inserted into it, and the second diode is connected between the capacitor and the output to connect the power source, the emitter-collector junction cerned tran- L / f ican connected in parallel with a capacitor and emitter-base junction of the transistor of the second - parallel to the second diode.

Description

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I ii The invention relates to electromagnetic technology and can be used in power switching circuits for electromagnets. A device for forcedly switching on an electromagnet containing a transistor connected in parallel to a current limiting resistor, a capacitor and a resistor connected to the base circuit of transistor 1 is known. This circuit does not provide a key operating mode for a transistor connected in parallel to the current limiting resistor, has a longer return time after disconnecting electromagnet due to the fact that the discharge of a capacitor included in the base circuit of the transistor shunting the current limiting resistor fucked for a long time The closest in technical essence to the present invention is a device for the forced switching on of an electromagnet containing a current limiting resistor, a transistor connected in parallel with the current limiting resistor, a capacitor and a charging resistor, a Schmidt trigger, a resistor and three diodes, the capacitor, the charging resistor and the additional resistors form a series circuit connected to the terminals for connecting the power supply, the resistors are bounded by two diodes of the connection point of the charge and auxiliary power The sources are connected to the input of a Schmidt trigger, the output of which through the third diode is connected to the base of transistor 2. A disadvantage of the known device is the large return time to the initial state after the electromagnet has been disconnected due to the fact that the capacitor is discharged through a relatively large resistance of resistors, decreasing the magnitude of which leads to an increase in the power consumed by the device. The purpose of the invention is to increase the speed by reducing the preparation time for the next power cycle without increasing the power consumed by the device. This goal is achieved by the fact that a device for forcedly switching on an electromagnet, containing leads for connecting an electromagnet winding, a current-limiting resistor, a transistor, a capacitor, charging and auxiliary resistors, Schmidt trigger, two diodes and wires for connecting a power source, and leads for connecting a winding An electromagnet and a current limiting resistor are connected in series and connected to the terminals for connecting a power source, a capacitor, a charging and additional resistors Also connected in series and connected to the power supply terminals, the connection point of the charging and auxiliary resistors is connected to the Schmidt trigger input, the output of which is connected through the first diode to the base of the transistor, the emitter-collector junction is connected in parallel with the current limiting resistor, the second transistor is inserted, and the second diode is connected between the capacitor and the output to connect the power source, the emitter-collector junction of the second transistor is connected in parallel with to the transmitter, and the emitter-base transition of the second transistor is parallel to the second diode. The drawing shows a diagram of the device for the forced start of the electromagnet. The device for forcing the coil of the electromagnet 1 contains a transistor 2, a shunt current limiting resistor 3. The base of the transistor 2 through diode 1 is connected to the transistor 5 of a Schmidt trigger. The base of transistor 5 is connected to the collector of transistor 6, the base of transistor 6 is through resistor 7, capacitor 8, diode 9 is connected to positive, and through resistor 10 to the minus of the power supply. The emitter-collector junction of the transistor 11 is connected in parallel to the capacitor 8, and the base-to-emitter transition of the transistor 11 is connected in parallel to the diode 9. Diode 12, resistors 10 and 13 provide the relay mode of the transistors. Resistors 14 and 15 and diode 4 determine the operating mode of transistor 2. Parallel to the coil of electromagnet 1, diode 16 is turned on. The device operates as follows. When the device is switched on, the charging current of the capacitor 8 through the resistor 7 opens transistor 6, transistor 5 closes and

transistor 2 opens, the current-limiting resistor 3 shunts. There is a forced increase in the current in the coil of electromagnet 1. At the same time, the power supply transistor 11 will be closed, since a positive voltage will be applied to its base.

After charging the capacitor 8, the transistor 6 is closed, the transistor 5 is opened, the closed transistor 2, and the current-limiting resistor is decoupled.

When the device is disconnected from the network, capacitor 8 quickly discharges through the emitter-collector

transition of the transistor 11 (when the device is disconnected from the network, the transistor 11 opens from the capacitor B through the resistor 7, resistor 10, resistor 15, diode 4, resistor 14 to the base of transistor 11 is supplied with negative voltage). Due to the fact that the resistance of the switched on transistor is insignificant, the proposed circuit has a short time to return to the initial state.

The advantage of the proposed device is high speed, which is achieved without increasing power consumption.

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Claims (1)

DEVICE FOR FORCED TURNING ON THE ELECTROMAGNET, containing leads for connecting an electromagnet winding, a current-limiting resistor, a transistor, a capacitor, a charging and additional resistors, a Schmidt trigger, two diodes and leads for connecting a power source, and the leads for connecting an electromagnet winding and a current-limiting resistor are connected in series with leads for connecting a power source, a capacitor, a charging and additional resistors are also connected in series and connected to conclusions to connect the power source, the connection point of the charging and additional resistors is connected to the input of the Schmidt trigger, the output of which through the first diode is connected to the base of the transistor, the emitter-collector junction of which is connected in parallel with the current-limiting resistor, characterized in that, in order to increase the speed of the device, a second transistor is introduced to it, and the second diode is connected between the capacitor and the output for connecting the power source, the emitter is a non-collector junction of the second transistor connected in parallel with a capacitor and emitter-base junction of the second transistor - and parallel with the second diode. *