DE1499672C - Magnetic storage arrangement with one or more storage elements in the form of thin magnetic layer elements - Google Patents

Description

3 4

the current of the outer conductor sections opposing the magnetic layer element 12 is limited, multi-magnetized to the direction it flows through several times in one direction (from left to right in the intermediate inner conductor sections in FIG. 1) with the aid of the inner sections 16, 20 has. As a result, that is also passed through by the outer liner and 24 and is an additive material section generated magnetic field to that of 5 generated magnetic field, which is applied to the thin magnet Inner conductor sections generated 'magnetic film elements 12 is applied. Farther see field opposite, so that these fields will be the current in series between any two such fields in the edge region of the layer element largely inner passages through the outer conductors 18 and cancel and thereby a fairly sharp traced back to the 22 through an area (from right to Area of the layer element limited magnetic field io left in FIG. 1) that lies outside the area that and the interference from stray fields through the edges of the thin magnetic layer is eliminated will. In addition, the energy requirement is element 12 is limited. This electricity generates a to generate a limited magnetic field low-magnetic field, which is part of the additive lean than the one who partially austen to generate an extensive magnetic field in a peripheral area Magnetic field is required. Finally adding 15 clears or reduces. It is also within the scope of the In the arrangement according to the invention, the we-invention, the edge area at each desired sound of the thin layer flowing through the inner conductor sections, as if for both Streams, so that because of the series connection this game along its edges to bit storage areas in Conductor sections define a significantly lower current of the thin layer 12. The strength of interest A certain magnetic element is then sufficient as in the known storage devices voltages in which only the strip line area that is within the total area of the thin current flowing through the layer 12 is delimited parallel to one another.

Switched conductor sections is distributed so that the conductor 14 is above which a magnetic field

required amperage equal to the sum of all the generating lower conductors 26 arranged with

Conductor sections through which currents flow. 25 the conductor 14 is congruent and in .einer

The invention is located below with reference to the deeper plane that is parallel to the plane The embodiment of the surface of the thin magnetic layer shown in the drawing is described and explained in greater detail. It shows element 12 runs. Of course it can with one

Fig. 1 is a plan view of one of thin ma- other arrangements may be possible, a single one

Arrangement 30 conductors which make use of magnetic layers can be used as the lower conductor 26. The two

tion according to the invention, the conductors 14 and 26 are both with the help of a

Fig. 2 shows a cross section along the line II-II connecting link 25 connected in series with one another,

by the arrangement according to FIG. 1 and as a result the other or lower conductor 26 leads

F i g. 3 is a diagram to illustrate the same current in series in the same kind and magnetic Field in the arrangement according to the 35 se, apart from the fact that the current direction in the 1 and 2 in relation to the magnetic single conductor section 28, 30, 32, 34 and 36 Field generated in the opposite direction to the current in the de-generated by a single conductor that was customary up to now will. speaking sections of conductor 14 is like it

In the arrangement shown in the drawing in Fig. 2 by the represented by dots

tion is a multitude of thin magnetic layers - 4 ° arrowheads and those represented by crosses

elements 12 close enough to one to generate arrow ends is illustrated. As a result

Upper conductor 14 serving magnetic fields and the additive magnetic fields of conductor 14

a magnetic field generating lower conductor and the conductor 26 are also added when they are connected to the

ter 26 attached in order to be applied with these conductors magnetically thin magnetic layer element 12

to be coupled. 45 den.

In operation, the conductor 14 generates a current of an input terminal when it is in operation Electric current carries a magnetic field that is supplied to 40 of the conductor 14, which is connected to the inner Aban the thin magnetic layer element applied section 16 is connected. When the current after the is to flow through the sections 16, 18, 20, 22 and 24 its remanent magnetization influence. In detail, the conductor 14 consists of 5 ° of the conductor 14, the end of the inner section 24 a number of line sections 16, 18, 20, 22, it is reached with the aid of the connecting member 25 and 24 descending parallel to each other or side by side to the lower conductor 26 leading to the run back and forth in a plane that is congruent to the plane conductor 14 and therefore in plan view is adjacent, in which the surface of the thin according to F i g. 1 is not visible. The current takes in magnetic layer element 12 is located. It understands 55 the conductor 26 the same way as in the conductor 14 Obviously, there is no critical requirement for and flowing through sections 28, 30, 32, 34 and the individual line sections is in the same 36 before coming to the end of the inner section 36 too To lie flat. The individual line sections of an output terminal 42, which are the input is opposite at its ends to form a series circuit with one terminal 40.

connected to the other, so that the same stream in series 60. The stream thus carries a total of six inner ones through each line section in selected passages through an area defined by the in order flows through it. the surfaces of the thin magnetic layer

The individual sections of the conductor 14 are so element 12 is defined, and creates an additive

attached to an electric current carrying a magnetic field coupled to the element

Input end of the conductor is fed near the 65 is. The four outer current passages generate ma-

Surface of each thin layer element 12 magnetic fields, which are opposite to the addi-

through an area or space which is directed through the tive field, which is directed by the inner

is generated by the edges or the surface of the thin current passages in the same plane,

and strive to have part of the magneti-current requirement of the conductor described above is it

see field in the border area. Naturally possible, economical semiconductor power sources, such as

■ Hch results in a different number of current through z. B. integrated circuit parts to be used,

went when a different number of conductor sections- One of thin layers was used th is provided. 5 making device according to FIGS. 1 and 2 with

A typical example of the magnetic field - the following dimensions and the following mast thickness H produced by the above process and materials manufactured and tested. The magnetic with which the thin magnetic layer element 12 thin layer element 12 consisted of 81 weight is applied, is illustrated by the solid curve percent nickel and 19 percent by weight iron and in the diagram of FIG. On io formed a film 1000 Å thick. It had one of the vertical axes of the diagram is the magne- length of about 1.5 mm and a width of about the field strength H which is parallel to the plane of the thin- 0.75 mm. The thin magnetic layer was attached to a support 54 made of glass, such as, for. B. one of the magnet-alkali-zinc-borosilicate glass produced with the aid of the conductor sections. The carrier was applied approximately across the field. On the horizontal axis, 15 are 0.15 mm thick. The conductors 14 and 26 consisted of the physical dimensions of the circuit parts in copper 0.025 mm thick and were represented by a plane corresponding to the sectional plane according to FIG. 4, printing or etching on carrier foils 56 and 58. Correspondingly, the abutments, which consisted of a hardened, glass fiber reinforced section 16 to 24 of the conductor 14, the sections 30 th epoxy resin. Each of the individual bodies 36 of the conductor 26 and the thin magnetic 20 ter sections 16 to 24 and 28 to 36 was approximately layer element 12 above and below the horizontal 0.15 mm wide and drawn from the adjacent section axis. Accordingly, in the case of a current, the thickness / is separated from the inner conductor sections by a gap approximately 0.15 mm wide. In order to electrically isolate the conductor 14 from the thin magnetic field with an average field table layer element 12 and to generate a strength H = X and to connect the individual layers to the thin magnetic field, the layer element 12 is fed. The outer conductor layers 60 and 62 with a thickness of 0.025 mm have a tendency to reduce the magnetic, non-hardened, glass fiber reinforced epoxy resin field strength H in the edge area, between the thin magnetic layer element due to the magnetic field strength in the space between and the conductor 14 as well as between the conductor 26 see the two mutually associated outer 30 and the carrier 54 attached. During final assembly, conductor sections are reversed, then again slightly the combined layers were pressed together becoming positive and finally asymptotically exposed to zero and heat, so that the layers 60 and goes. Additionally, the magnetic field in Figure 62 has hardened and bonded the entire structure with fringes over the top conductor 14 and below one another. In operation, a current on the lower conductor 26 through the opposite 35 was substantially reduced between 170 mA and 200 mA with a rising and compensating field. time of 60 ns to the input and output terminal

If there is a single conductor attached to the sections 46, a rotation of the remanent

and 48 identified by the dashed lines in magnetization.

F i g. 3 would be used, it would be understood, of course, that the above

a current of 3 / necessary to a magnetic 40 dimensions, materials and the working parameters

To generate the field, which is graphically represented by the dashed line only for an example produced and under-

Curve is displayed. As a result, the same set-up would apply and not in a limited

magnetic field strength H = Xm the thin mazing sense for the features of the invention to-

gnetic layer element are generated while grasp are.

the strength of the magnetic field in the edge 45 When used as a digital storage unit

area would be much higher than in the previous, the conductors 14 and 26 of FIG. 1 in the

described device, the features of the general parallel to an anisotropy axis of the

Invention having. Layer element and generate a magnetic

Some advantages of the cross-field embodiment. These conductors can then be used as word conductors

1 and 2, consist 50 are considered. The transverse magnetic field rotates

in that a magnetic field that has sufficient remanent magnetization M from the axis of the

has sufficient strength to make the uniaxial anisotropic anisotropy out. A bit line 72 shown in FIG. 1

Properties of the thin magnetic layer- indicated by dash-dotted lines, extends transversely to

To influence element 12, from a relatively low anisotropy axis and generated to the anisotropy axis

rigen electricity is generated. In addition, the same 55 parallel magnetic fields that determine whether the

The low current of the conductor is also used to make the storage element state for a zero or a

magnetic field strength H in the peripheral areas of the one assumes.

The same bit line 72 can also be used as a read line

although significantly below the magnetic field strength used when the memory cells are interrogated

comparable magnetic fields that turn 60 with others. If the word conductors 14 and 26 are a magnetic

Funds are generated. As a result, it is possible to generate the cross reading field to the saved

To rotate further rows or columns of thinner magnetic remanent magnetization M is done in the

Layer elements 12 induced an electrical signal relatively close to other rows of reading lines. The Po

or to arrange columns and create several layers of larity of this induced electrical signal.

Stacking storage elements without any significant indications of the direction in which the remanent magnetic

showed some difficulties from a magnetic creepingM when it was rotated. Hence can

Chen as a result of repeated interrogation next to be determined whether the memory status of a

beard elements occur. As a result of the low digital zero or a digital one there exists, in-

which the polarity of the induced read signals is determined.

In the arrangement described above, the magnetic layer was thin enough to perform rotary switching under the influence of a transverse field and a bit field. In other embodiments of the invention, the storage and switching can also take place in layers of various other thicknesses which, for switching, only require the use of a bit switch field of sufficient strength to overcome the coercive force H _{0 of} the material. The principle of the invention can also be applied to magnetic films or media that have isotropic properties and in which the coercive force H _{0 of} the magnetic material also has coincident fields for switching

can be overcome. Nor are the principles of the invention thinner on individual elements Layers for each bit or structurally separate magnetic points are limited because it can be can apply the principles of the invention to other suitable forms of thin magnetic layers to use such as B. for tapes or foils made of magnetic layers, where the advantages magnetic isolation can be particularly useful

ίο would, in order to prevent the magnetic areas from to spread out. In other words, each magnetic element could actually be an area be from a multitude of certain elementary areas in a larger area, for example is formed by a tape made of a film coated with magnetic material.

1 sheet of drawings

209 528/457

Claims (4)

1 2 The surface of the shoe elements are guided along one or the other of the surfaces. 1. Magnetic storage arrangement, insbcson- consists of 5 sections, of which inner conductor sections their orthogonally controlled memory arrangement, the layer elements and on both sides the inner one with one or more outer conductor sections arranged in rows and columns of conductor sections arranged memory elements in the form of thinner outside the boundaries of the magnetic layerelemagnetischer Layer elements and areas with the Erzeum cross. supply of magnetic coupling fields serving io It is known to drive lines for magnetic Driveline lines that are parallel to the surface of the layer elements as ribbon lines that Layer elements on one or both upper surfaces in the vicinity of the area of each layer element surface 'are guided along and of which we have longitudinal slots, which the ribbon line At least one in the area of the layer elements into a number of parallel conductor sections below one another Number of parts running parallel to one another 15, which are also all connected in parallel to one another Ladder sections consists, of which inner Lei- are. Through this measure, the in such sub-sections the layer elements and to both ribbon lines during the switching operations as a result of the Sides of the inner conductor sections arranged changing magnetic fields occurring vortices outer conductor sections outside the limits currents are reduced. On the course and the of the magnetic layer elements lying 20 Strength of the tape line to control the offer cross, thereby marked-layer element generated magnetic field has the net that the inner and outer conductor divisions subdivide the strip conductor into a number in parallel sections are connected in series in this way and there are conductors that run through them and are also connected in parallel in such a direction of the same section no influence. Chen current are flowing through that the inner 25 thin magnetic layer elements have the Conductor sections (16, 20, 24 and 28, 32, 36) an advantage that they only have a small need for switching additives magnetic field of a certain retrieval and interrogation power. Still, however device with which the magnetic layer element for switching the layer elements with the help of the attached 2) is acted upon, and the outer conductors known ribbon lines are still receiving a current (18, 22 and 30, 34) compensating 30 considerable strength is required. In addition, there is a Speimagnetische Fields in opposite directions generate arrays with magnetic layers of this type, the the magnetic field strength in the elements the difficulty that the stray fields Edge areas of the additive magnetic field the edges of the ribbon lines over the area weaknesses. of the layer element go beyond and considerable 2. Memory arrangement according to claim 1, there being 35 interference in the operation of such layers characterized in that magnetic storage devices built up on a surface Layer element (12) can cause three internal conductors. In particular, can sections (16, 20, 24) and two outer conductors - the layer elements, if they are of in certain Sections (18, 22) are arranged and each way magnetized areas in larger magneein outer conductor section (18 or 22) between layers are formed by repeated see the middle inner conductor section (20) switching operations to a wandering across the ribbon and the outer conductor lead adjacent to it. cut (16 or 24) is connected in series. The invention is based on the object 3. Memory arrangement according to claim 1 or 2, so far by the stray fields at the edges of the characterized in that the inner and 45 ribbon lines avoid causing interference outer conductor sections to create two congruent and one magnetic storage arrangement, Form groups (16 to 24 and 28 to 36) between the individual layer elements each of which has a high magnetic isolation on one of the two surfaces, so that of the layer element (12) is arranged and the layer elements are arranged very close to one another are connected in series. 5 ° net and therefore a high storage capacity 4. Storage arrangement according to one of the pre-capacity per volume unit can be achieved,
The preceding claims, characterized in that this object is achieved according to the invention in that the magnetic layer element (12) is achieved in that the inner and outer conductor sections are uniaxial anisotropic properties connected in series in a known manner and thereby have shafts. 55 are traversed by the same current in such a direction that the inner conductor sections create an additive magnetic field of a certain Direction with which the magnetic layer element is applied, and the outer conductor sections 60 compensating magnetic fields opposite Generate direction that the magnetic field The invention relates to a magnetic strength in the peripheral areas of the additive magnetic Weaken the memory arrangement, especially the field viewed orthogonally. controlled memory arrangement, with one or more- In the memory arrangement according to the invention ren, arranged in rows and columns, are therefore those in the area of a layer element. elements in the form of thin magnetic layers - conductor sections arranged in relation to one another are not elements and with the generation of magnetic cop- as in the known arrangements in parallel, but pelfelder serving driveline, which are connected in parallel to the in series, in such a way that