SU801183A1 - Pulsed electromagnetic switching apparatus - Google Patents

Description

(54) PULSED ELECTROMAGNETIC SWITCHING DEVICE

one

The invention relates to switching technology and can be used in automatic control systems, control, measurement and communication of various branches of technology as a pulse switching element with two memory states, controlled from a single source of single-pole pulses.

Pulse electromagnetic memory switching elements are known - ferrides consisting of a ferromagnetic core acting as a magnetic memory element, on which control windings and magnetically controlled contacts are mounted.

one.

The disadvantage of such devices is the impossibility of controlling unipolar pulses from one source of signals along one control circuit.

A pulsed electromagnetic switching device containing a ferromagnetic core, on the outer-non-closed side rods of which two are located on the & control coils, and two magnetically controlled contacts (pve groups) located in the open sections of each of the

these rods, and the source of control pulses 2.

However, the known device cannot control unipolar pulses on a single control circuit, which leads to the complication of control of the device.

The purpose of the invention is to simplify device control.

The goal is achieved by the fact that the device is equipped with two magnetic diodes with low direct initial resistance and two storage capacitors, these magnetic diodes are mounted on external open side rods, and the anodes of both magnetic diodes are connected to the positive source of control pulses, the cathodes of the magnetic diodes are connected to the beginnings of the control windings , the ends of the control windings are connected to the minus bus of the control source of pulses, and the storage capacitors are connected in parallel to the windings of a pack The pressure so as to form with windings aperiodic contours discharge. FIG. 1 shows a diagram of the device on the W-shaped core,

in fig. 2 - the same, on the H-shaped core; in fig. 3 - the same, on a 5-shaped core.

A pulsed electromagnetic switching device with memory consists of a ferromagnetic ferrite core (FS) made of magnetic material. Medium magnetic rigidity, on the external unclosed rods of St and C2 of which control windings W) H WN, 2 are placed. contacts MK and commuting load. On the outer cores St and St of the core, transversely to the magnetic flux, inside the control windings NJ v. Two magnetodiodes MD and MD2 are installed. The magnetodiodes have a low direct initial resistance in the absence of magnetic flux and increase their direct internal resistance when exposed to a working magnetic core flow. In parallel with the windings W and W (, 2., capacitors C and C are connected, respectively, which form aperiodic discharge circuits with the windings. The anodes of both MD and MD magnetic circuits are electrically connected and connected to the plus bus of the source of control pulses. Cathodes X1 of the magnetic diode MD and The MDs are connected, respectively, with the beginnings of their control windings W% j, and ensure the pulse enters the winding from the source. The ends of the control windings and VCyj are electrically interconnected and connected to the common source point of the control and pulses I, e.g. to its negative rail). Capacities with and sd are chosen so that when they are discharged to their control windings they develop magnetic fluxes sufficient to saturate the corresponding rods, while the discharge of the containers is aperiodic. From the beginning of each control winding Y and "/, there is a tap to supply the impulse to install the device to a certain initial state (the impulse of the start of the INP conversion).

The device works as follows (see Fig. 1).

The pulses of the onset of conversion, fed into the winding YY |, the device is set to its initial state in which the left branch of the magnetic system is magnetized, the magnetically controlled contact MK is closed, its load is turned on, and the magnetic diode MO., Is under the influence of a magnetic flux F, rod of the FS core core has a high direct resistance. On the right branch of the magnetic system of the device, a small magnetic flux flows, the reed switch MK is open, its load is disconnected, and the direct resistance the magnetic diode MD "remains izkim. At the entrance

the device of the operating control pulse from the source of control pulses, it practically enters through the MD1 magnetic diode, the direct resistance of which is low, only into the control winding (.5 capacitor C. At the same time, capacitor C is instantaneously charged and after a pulse is aperiodically discharged to the winding Wj. A current flows through the winding, causing the magnetic flux F, magnetizing the right branch of the magnetic system of the device and leading to the actuation of the reed switch MKh, the component F of the magnetic flux F demagne imitates the left branch, causing the reed switch MK to be released. direct resistance, and the magnetic diode; 1USCH dramatically reduces its direct resistance. The next pulse from the source of pulses, entering the device, is fed through an MD4 magnetic diode, having a low direct resistance, to the winding X (/ and the condensation Ator Cjj. It causes magnetization of the left branch of the magnetic system of the device, actuation of the reed switch MK, demagnetization of the right branch of the magnetic system of the device and releasing the reed switch MKj. The device returns to the initial state. Further work is repeated.

The devices shown in FIG. 2 and FIG. 3

The proposed technical solution makes it possible to simplify the control circuit of the device, to realize control of the device from a single source of unipolar pulses along a single control circuit, i.e. reduce by two times the range of equipment needed, increase the reliability of the device and realize the function of a trigger with a counting input.

Claims (2)

1.Denisov A.G. and others. Ferrides. Informelectro, 1972. 2. Authors certificate of the USSR. No. 554742, cl. H 01 H 51/27, 1972.