DE1774687C - Read-only memory - Google Patents

Description

The invention relates to a fixed-value memory in the read line of the transformer core rather with transformer cores, in which the legs of the read signal are induced. But because of the in-transformer cores through the openings of a number of ductile couplings in the other storage levels Layered, with conductor tracks provided interference currents can flow, is in the transformer leaf-shaped carrier are inserted, with the core in all levels in which a piece of information »1« formations are stored in that the stored induces a flow. On the reading conductor tracks the legs of the transformer cores wrapping a signal is picked up, which is an Amfassen or not include and in which each has plitude with a polarity that is reversed to Transmit a read winding is applied. that of the one-signal. If a "1" is read out, then Read-only memories of this type are known per se. io arise in a corresponding way through the induk-So is in the "IBM Journal", September 1964, p. 443 ff. tive coupling through the transformer cores in the not an arrangement described in the transmitter controlled memory levels interference currents in the through a package of sheet-shaped line carriers selected transformer cores "form an interference flow, are pushed through. On each carrier there are two tracks of the sub-track systems generated by the control current applied, each of which weakens one of the 15 rivers. The one removed from the reading winding Surround the legs of the transformer on all sides. The read signal therefore has a smaller amplitude Due to interruptions in the conductor track system as the ideal one signal. The signal-to-noise ratio between men can dnc binary information, e.g. B. a "0", one signal and zero signal is caused by this interference be stored so that the transformer currents are smaller, the differentiation more difficult or core does not include the conductor track assigned to it ao quite impossible.

and a "1" in that the transformer core encompasses the conductor track. Since each leg is encompassed or not encompassed by a magnetic conductor track system caused by the transformer cores, the coupling of the conductors on the sheet-shaped trays can reduce two bits per transformer in one plane with one another. This will save you. 35 solved that at least one leg of each is also already known (French Pa transformer core is divided into sections in this way, Tentschrift 1 520330, see Fig. 1), ^ uf each sheet conveying that sections in which the magnetic field is Migen carrier A of the package, the strip conductors L can spread unhindered, to lead with sections in a pinnacle shape, so that several rows change in which the magnetic field displaced Al to R4 of transformer cores is next to each other 30 that similar sections are in the legs. Each transformer core - in the figure, the transformer cores are at the same height that several transformer cores U are indicated - is the leaf-shaped carrier so to the legs that are only linked to a conductor track or not arranged that it only connects these. The information is thereby stored in the sections in which the magnitude that the associated transformer core can spread the conductor path L ₃₅ table field, and that the reading includes or not. For this purpose, the development of the conductor path around one of the transfer legs is interrupted accordingly. A piece of information "0" is arranged over its entire length.
z. B. stored when the conductor path L so under- I _n the apparatus of the invention can thus is broken, that the drive current while reading the magnetic coupling between the conductors flows around the legs of the Übertragerkerne outside. 40 of the sheet-like carriers only in partial areas. Information "1" is stored when a stack occurs. The displacement of the madie conductor track L is interrupted in such a way that the magnetic field can be achieved in that the control current is only able to flow between the legs of the over to the sections in which the magnetic carrier can flow. Field can spread out, sections of metal follow. In FIG. 1 some interruptions M are shown- 45 I _n these sections of metal are provided by the. If during the reading process a current / eddy currents are induced by a magnetic field, which are sent to the conductor L , then all the overfall are coupled with a magnetic field, carrier cores that encompass the conductor L The magnetic caused by the eddy currents. The field created in the transformer cores is opposite to the field in the legs of the transformer magnetic flux induced in the read windings 50 cores, so it displaces this,
a voltage that is evaluated as a read signal. Further developments of the fixed value according to the invention - the read windings are on one of the legs of the memory result from the subclaims,
wraps. The read-only memory according to the invention is further explained in such arrangements, however, by way of exemplary embodiments. It shows an inductive coupling between 55 transformer cores

the conductor tracks of the stacked F i g. 2 shows the structure of a known transfer blade-shaped carrier. If any leaf-shaped kernel,

Carrier of the stack activated during the reading process F i g. 3 and 4 according to the invention designed legs

will flow due to the inductive coupling kel of a transformer core,

through the transformer cores in the conductors of the remaining 60 F i g. 5 a particularly favorable design of the leaf-shaped carrier interference currents. Assuming read-only memory according to the assumption,
This means that the information "0" is read out. A transformer core, as is usually the case with Festsoll, which means that the relevant transformer value memory with sheet-shaped carriers and on the core does not include the conductor track. It is assumed that the applied conductor tracks are used; it is assumed that they are shown in the remaining memory levels at 65 in FIG. It consists of two yokes / which are made of ferrite for the storage unit assigned to the same transformer core. The legs 5 are arranged between these two yokes several times the information "1" is stored. They consist of the same. If there were no interference currents, it would be made of ferrite. On one of the legs is the reading

wire LD wound. By means of a transformer core designed in this way, all the conductors passing between the two legs are magnetically coupled to the sheet-shaped supports through which it is inserted.

Through the in F i g. 3 and 4 shown embodiment of the legs of each transformer core, the magnetic coupling of the said conductors on the sheet-shaped supports is reduced to one another, in such a way that the coupling is limited to a maximum of partial areas of a memory block. This is the case with the leg according to FIG. 3 achieved in that alternately ferrite pieces and metal disks are arranged one above the other. The metal disks are marked with B, the ferrite pieces with D. The sheet-shaped supports are now arranged so that they only encompass the leg at the points at which the Feiritteile D are located. The magnetic field generated in the ferrite pieces by the currents through the bloom-shaped carrier causes eddy currents in the metal disks B , which in turn are linked to a magnetic field that is opposed to the magnetic field in the ferrite pieces and therefore displaces it from the metal disks. The magnetic field can therefore not spread over the metal disks 3 to the next ferrite pieces D. It then runs through the air to the other leg of the transformer core, runs there in the ferrite piece lying at the same height and then returns again through the air to the ferrite piece of the first leg. Another possibility for the construction of the transformer core legs is shown in FIG. 4 shown. Here the legs consist of a ferrite rod F, on which metallic rings R are attached at certain intervals. These metallic rings R can, for. B. consist of sleeves that are pushed onto the ferrite rod F. But they can also be rings on the surface of the transfer leg, which are applied by an electrolytic process; Finally, they can also be made from conductive varnish. The reduction in the magnetic coupling of the conductors to one another on the sheet-shaped supports is achieved in the same way as in FIG. 3 has been described.

In order to prevent the magnetic flux generated in the ferrite pieces from having to close via the air, planar magnetically conductive plates are inserted between the sections in which the magnetic field is displaced and the sections in which the magnetic field can spread. These magnetic disks are shown in FIG. 5 denoted by P. The magnetic flux then closes via these plates P from the ferrite piece of one leg to the ferrite piece of the other leg of a transformer core. In this way a reduction in magnetic reluctance for the flux is achieved. This measure has a favorable effect on the reading signals picked up on the reading windings. The plates? can consist entirely of ferrite, or they can be made up of a carrier material *: in, on which ferrite layers are applied. As shown in FIG. 5 as can be seen, the magnetic plates P are arranged in the sections in which the field is displaced. Thus, the same magnetic plate can be used for the immediately adjacent ferrite pieces of each leg. Each magnetic plate is assigned to all of the transformer cores U of a stack.

It is possible to use only one leg of each transformer core according to that specified according to the invention Build way. However, both legs can alternately consist of ferrite pieces and metallic disks.

Claims (5)

Patent claims: 1. Only Memory with Ubertragerkernen, wherein the legs of the Übertragerkerne übereinandergeschichu through the openings of a number: - ter, provided with conductor tracks sheet-shaped base are in which information di by eingespeicl, Λ, in that the conductor track ^, the legs of the Üoertragerkerne include od;. r not include and wherein a sense winding is applied to each transformer core, as characterized by, that for Verrin caused by the Übertragerkerne magnetic coupling of the head of the sheet-like medium delay at least one leg (S) of each transformer core (U) in such a way is divided into sections that sections (D), in which the magnetic field can propagate unhindered, alternate with sections (B, R) in which the magnetic field is displaced so that similar sections are at the same height in the legs of the transducer cores that the sheet-shaped carrier is arranged in relation to the legs of the transformer cores are that they include this only in the sections in which the magnetic field can propagate, and that the reading winding is arranged around one of the transmitter legs over its entire length. 2. Read-only memory according to claim 1, characterized in that the legs (S) of the transformer cores (U) are constructed alternately from ferrite pieces (D) and metal pieces (B) to displace the magnetic field by eddy currents. 3. Read-only memory according to claim 1, characterized in that to generate the sections in which the magnetic field is displaced, short-circuit rings (R) made of electrically good conductive material are applied to the legs (5) made of magnetically good conductive material. 4. Read-only memory according to claim 3, characterized in that the short-circuit rings (R) consist of conductive lacquer. 5. Read-only memory according to one of the preceding claims, characterized in that a planar magnetically conductive plate is provided which has openings for inserting the legs of the transformer and which is arranged in HMe of the sections in which the magnetic field is displaced, so that the magnetic flux of the mutually associated sections of the legs of the transformer cores can close from one leg to the other in the plate. 1 sheet of drawings