SU905912A2 - Electromagnetic mechanism control device - Google Patents

Description

one

The invention relates to electrical engineering, specifically to transistor pulse control devices of a high-speed electromagnetic mechanism.

According to the main author. St. No. 499606, a device for controlling an electromagnet is known, which contains a key, an additional inductance, a transistor for de-energizing an additional inductance, and two oppositely connected diodes, the common point of the anodes of which is connected in the electromagnet winding. At the moment of switching on the electromagnet, the additional inductance is de-energized, as a result of which induced induced emf through the diode is applied to one of the ends of the electromagnet winding, providing the forced operation of the latter. The magnitude of the overvoltage pulse depends on the value of the current in the additional inductance at the moment of its disconnection 1 1.

A disadvantage of the known device is the impossibility of its use at a high frequency of operation due to the fact that the additional inductance is de-energized during the entire period of the on state of the electromagnet. In this connection, if after switching off the electromagnet it is necessary to turn it on very quickly, which has a month at high frequency, then the current in the additional inductance does not have time to reach its steady-state value (because of the presence of its constant time)

Claims (1)

15 and forcing the operation of an electromagnet to a minor extent. In addition, the transistor switch opens somewhat later than an overvoltage pulse appears, which prevents the self-induction emf from being fully used to force the electromagnet to operate. 3 The circuit of the invention is to increase the frequency of operation of a device for controlling an electromagnetic mechanism. This goal is achieved by introducing a capacitor into the device for controlling the electromagnetic mechanism, the capacitor being connected between the output of the switch and the control electrode of the transistor. The drawing shows the electrical circuit of the device. The device consists of a series-connected key 1, an electromagnet 2, a diode 3, the cathode of which is connected to the earth bus, and the anode is connected to the anode of a diode 4 connected to the collector of transistor 5, which also has an additional inductance 6 connected to the base of transistor 5 to key output 1. In the initial state, transistor key 1 is closed, and transistor 5 is open, i.e. the electromagnet 2 is de-energized, and, through, the inductance 6 current flows. When the control signal is applied to the input of the device, the transistor switch opens, a positive voltage drop across the capacitor 7 is applied to the base of the transistor 5, locking the latter and thereby providing the appearance of an overvoltage pulse on the additional inductance. Since the locking of the transistor 5 is carried out through the capacitor 7, and not potentially (as in the known device), it is returned to the open state before the control signal is removed. With this control, at the time the control signal is applied to the input of the device, inductive current flows in the inductance 6, and an overvoltage pulse is applied to the electromagnet winding with a fully open transistor switch 1. The use of the present invention improves the speed of a variety of automation devices. The invention The device for controlling the electromagnetic mechanism according to the authors. St. No. 499606, which is distinguished by the fact that, in order to increase the response frequency, a capacitor is inserted into it, with a capacitor connected between the switch output and the control electrode of the transistor. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 499606, cl. H 01 H 47/32, 1972. if num