SU1019953A1 - Matrix coupler employing ferreed memory contacts - Google Patents

Abstract

MATRIX POSITIONER ON REMAINING MAGNETIC CONTROLLED CONTACTS, containing a control winding, creating oppositely directed magnetic fluxes, controlling. contact state of one coordinate, different in that,. that, in order to improve the design and increase reliability, this winding is flat and parallel to the longitudinal plane; Axes of the gezacons of the same coordinate. (L with sd 00

Description

The invention relates to a communication technique, in particular, to seekers of the coordinate type, in which sealed magnetic storage contacts (hexa- gons) are used. The invention can be used mainly for switching conversational circuits of quasi-electronic automatic telephone exchanges. Matrix connectors are known on the hexahons that contain a ferromagnetic shunt plate, on either side of which four separate control windings are located on each switching point. The control windings at each switching point are combined in pairs and form a differential circuit. In these connectors, at each switching point in series and meetings, two windings are located on opposite sides of the shunt plate. The disadvantages of such a connector are the large size, due to the large number of separate control windings at each of the switching points, as well as the design complexity and labor-intensiveness of manufacturing. Also known is a matrix connector on the gezacons, containing integral coordinate coordinate windings. The control winding consists of two identical oppositely included sections, located symmetrically with respect to the ferromagnetic shunt plate. The sections are manufactured separately in de cylindrical unidirectional winding. The connection of the sections to the control coil is accomplished by soldering. Because of the need to connect the individual sections, the connector has a large number of rations that. leads to an increase in manufacturing labor and a decrease in reliability. The purpose of the invention is to simplify the design of a coordinate joint and increase reliability. This is achieved by the fact that in the matrix connector on the storage magnet control contacts, containing a control winding that creates oppositely directed magnetic fluxes that control the state of the contacts of one coordinate, the said winding is flat and parallel to the plane of the longitudinal axis of the geozaks of one coordinate. FIG. Figures 1 and 2 illustrate the principle of construction of the proposed matrix interconnect. The matrix connector consists of one of the hezacons 1, circumferentially co-ordinated by windings 2 and 3. The windings 3 are wound without separation and are connected in series. The winding 2 is applied on an elastic substrate and installed so that its center is in the zone of overlapping of the contact springs of the jacks. The operation of the switching point of the proposed connector is carried out by feeding a series of variable, decaying current pulses into the winding 2 and a constant pulse into the winding 3. The gezacons, which are simultaneously affected by the magnetic fields created by the windings 2 and 3, work because their contact springs magnetize without hysteresis . The direction of magnetization of the contact springs of the gezacons is determined by the magnetic field of the winding 3. The contact springs of the gezakon, which are affected only by the alternating damped magnetic field created by the winding 2, are demagnetized and these gezacons are released. In the proposed connector, short-time triggers when exposed to only a variable decaying magnetic field are excluded, since winding 2 creates two oppositely directed and symmetrical magnetic fields (relative to the working gap of the geza-laws). This is provided by both the arrangement and the method of manufacturing winding 2. This winding can be manufactured by etching conductors on a foiled dielectric or by winding a wire in the same plane, so that the winding conductors, located in the same plane, form two opposing sections. After being installed in the connector to reduce the control power, the winding 2 bends and takes the form shown in FIG. 2, i.e. performed by a plane and bypassing the gezacon of one coordinate along an open loop. The use of the proposed device allows to significantly reduce the amount of switching equipment.

31019953

reduce control power. The technical advantages of such a device, the reduction in the labor of a device, and the simplification of manufacturing should be attributed to the technical design of the connector.

Claims (1)

MATRIX CONNECTOR ON REMEMBERED MAGNETIC CONTROLLED CONTACTS, containing a control winding, creating oppositely directed magnetic fluxes, controlling. contact state of one coordinate, _wherein? that, in order to simplify the design and increase reliability, this winding is made flat and is parallel to the plane of the longitudinal axis of the hezakons of the same coordinate. CO with GO 1 IU19953 2