DE1126921B - Magnetic device for storing digital values - Google Patents

Description

Magnetic device for storing digital values The task The present invention is to provide a memory device that consists of ferromagnetic material or highly permeable sheet metal with rectangular hysteresis and which have low power to store a group of digital values allowed.

There are a number of facilities for solving this problem known. Ceramic materials - ferrites - are used to make toroidal cores are shaped and allow a magnetic storage of digital values. The application Such toroidal cores made of ferritic material have two major disadvantages: On the one hand the ferrite cores require very high currents in order to achieve magnetization reversal, d. H. allow the cores to be written or read. On the other hand, there are several Cores that always belong to a memory (matrix), mechanically only under a very large one Effort to be summarized by adding a larger number of cores to it Groups is threaded by means of wires. So the electrical connections serve with these known ferrite core matrices at the same time for mechanical fastening. The disadvantages are, on the one hand, the mechanically weak design and, on the other hand, in the Risk of damaging the insulation of the wires.

The mechanical structure of this device has also become known to simplify by the fact that so-called perforated plates were created from ferrites. Here groups of storage elements are combined, mechanical hold and electrical wire routing are separate, but this type of storage can only work with further serious disadvantages are bought. These memories are also mechanical very unstable, on the other hand they require even greater capacities for storage and reading the values, d. H. to remagnetize. In addition, with such Plates a sharp separation of those belonging to the individual storage elements (holes) Magnetic fields do not allow, so that either a spatially extended arrangement (wider spacing of the holes) or an influence on the stored values at Reading must be accepted. The threading of the wires is with these plates very difficult. Ferromagnetic grids have also become known that are similar the perforated plates are constructed, but are provided with grooves. Your properties differ only insignificantly from those of the perforated plates, so that their use oppose the same disadvantages. Therefore divide for the solution of the task such ferromagnetic materials.

In addition to ferrites, ferromagnetic materials are also extreme known to have great magnetic conductivity. These need to be magnetized only very small achievements. Individual storage cores are made from these materials shaped, e.g. B. wound, which allow the storage of one unit (bit) each. The one disadvantage, namely the large power requirement of the ferrite cores, is not here more available. However, it is impossible to produce these cores roughly by To shape perforated plates into units, the storage groups according to the task allow to construct. So there remains the disadvantage of the mechanically complex Construction and the combination of holding the cores by the current-carrying Wires with their electrical tasks. The application of these cores has the same disadvantage of the ferrite cores, namely that they are only very laboriously combined into groups and are vulnerable in operation. Here, too, prepares the threading of the Wires trouble.

The invention avoids all of the disadvantages described in that a sheet made of magnetically soft material with a preferably rectangular Hysteresis to several self-contained, mechanically connected winding cores is shaped.

There are many ways in which the invention can be carried out; for example one in which the sheet metal is slotted and these slits to the individual partial cores be rolled up. This not only makes it easy to assemble such core groups achieved, which is completely independent of the line routing, special even threading the windings or wires for storing and reading is very easy and cheap.

According to the invention, so many cores can be combined from one piece that tetrads can be stored with or without a comma. Likewise can groups of ten, i.e. real decimal groups, by a corresponding number of combine winding cores formed from one piece.

The type of formation has also compared to the known devices nor the advantage that the magnetic fields of the individual storage elements are very well separated so that it is not possible to influence them.

According to the invention is the mechanical attachment or combination the subgroups to larger units easily possible; easy and cheap by you use the remaining bridge for this purpose. This allows such units can be assembled and interconnected to form a complete matrix.

In the figures, the invention is explained in more detail using an example.

Fig. 1 shows a sheet of highly permeable material and Fig. 2 shows the same Deformation.

According to Fig. 1, a sheet 1 is made of magnetically soft, highly permeable Material, preferably rectangular magnetization curve; used and in place 2 provided with slots, one of which is provided less than, for example a tetrad requires units.

According to Fig. 2, the sheet is then deformed so that winding cores of a or several turns arise. For example, according to FIG. 2, from the web 3 from a part of the sheet to the windings 4 and 5 to one side and wrap another part to the turns 6 and 7 to the other side. Through this the cores 4, 5, 6 and 7 formed in this way lie alternately on both sides of the sheet. The wire lines 8 and 9 can then be threaded in a simple manner and depending on Wish to be switched. The memory can then be attached by means of the yoke 3 and can be combined into groups next to or on top of one another.

The method of forming the sheets into storage combinations described here is just one example of other, equally useful arrangements according to the invention, for example the shaping on two or all four edges of the sheets.

Claims (3)

PATENT CLAIMS: 1. Device for storing digital values by means of ferromagnetic material, in which several units from a mechanically coherent Pieces consist, characterized in that one consisting of soft magnetic material Sheet metal with preferably rectangular hysteresis to several self-contained, mechanically coherent winding cores is formed. 2. Device according to claim 1, characterized in that as many cores are mechanically made in one piece, that a tetrad can be saved without / with a comma. 3. Set up according to the Claims 1 and 2, characterized in that after the winding cores have been formed The remaining web is used to attach the storage device. Considered Publications: German Auslegeschrift No. 1034 689.