DE1920925A1 - Semi-permanent allocator with controllable coupling elements - Google Patents

Description

Semi-permanent allocator with controllable.

Coupling elements The invention relates to an allocator, e.g. Desktop computer, for the exchange of information between the processing unit and the Main memory. Reading a word from the memory is known to happen in such a way that the address of this word corresponds to the addresses of all stored Words is compared. If the address is found, the one containing the address will be Address register activated. For the storage of a word an empty one must be used Storage location are made available. Then the word will be in this memory location and the address of the word is written into the condit.dize address register. In In this system, the allocator has an important control function.

Allocators can be structured in different ways - for example Resistive allocators are known in which the stored information is or absence of copelernents is embodied. The coupling elements are here mostly linear or non-linear resistances. Allocators are also known in which the information can be changed. The change of information is conditional here but the actuation of galvanic contacts with all related Disadvantages. Allocators whose information. can be changed, become semi-permanent Fixed value storage.

The object of the invention is, in the case of semi-permanent allocators to eliminate the disadvantages indicated. According to the invention, this should be done by that resistive coupling elements are provided, the resistance of which depends on the height a magnetic field acting on the coupling elements is determined. The magnetic field can be generated by a permanent magnet or by an electromagnet.

As is known, the resistance value of the resistive coupling elements increases, if they are perpendicular to the element plane of one Magnetic field interspersed will be. According to the invention, this effect is used for information storage. The absence of a magnetic field corresponds, for example, to a binary one One, while the presence of a magnetic field means a binary zero.

The arrangement according to the invention has, compared to known, semi-permanent Allocators have the advantage that information can be stored without actuating a contact is variable. Magnetically controllable resistors can be used as coupling elements are i.a.

also the semiconductor components known under the name 11FeldplatteentT.

The invention will be described hereinafter with reference to the appended Drawings with two exemplary embodiments described.

It shows: FIG. 1: a resistor matrix; Figure 2: the section of a Resistance matrix and a plate equipped with electromagnets; Figure 3: a resistor matrix covered with a mask, partially broken open; Figure 4: the Cut a.er cassette; FIG. 5: like FIG. 1; Figure 6: one with a permanent one Magnet-carrying plate covered resistor matrix; Figure 7: the section of the Figure 6; Figure 8: the section of a cassette for a permanent magnet carrying Plate; The resistors 4 of the assigner according to the invention and the word lines 3 and the reading lines 2 are carried by a plate 1, which is a printed Circuit can be. At the intersection points of the m word lines with the n read lines there are m x n magnetically controllable resistors on the plate. Are there die- magnetically controllable resistors each with a word line and with one Reading line connected.

In the first exemplary embodiment, a Information in the semi-permanent resistors 4 of the matrix 1 an arrangement of Electromagnet 8 used by a plate 5 are carried. The windings 9 of the magnets 8 can in a known manner, for example via button contacts get excited.

In a second embodiment of the invention, the magnets 3 are kept constantly in the excited state. For the selection of the Resistors 4, a mask plate 6 is used. This mask plate is in the places where the resistors 4 to be assigned are provided with holes 7. Like the figure 4 time, the resistor and magnet arrangement according to the invention can be combined into a cassette be combined with the side walls 1 and 5 and a bottom. Are for the mask plate 6 guides lo, 12 provided at the top of the insert and 11, 13 at the bottom on the bottom, which ensure that the mask plate is at the correct distance from the magnets and Resistances is held.

Another embodiment of the semipermanent according to the invention FIGS. 6 to 8 show the assignments. According to FIG. 7, a plate 16 is recessed permanent magnets 17, which embody information in their arrangement, which the corresponding resistors 4 should be pressed. Figure 8 shows 8 shows a cassette from the plates 1 and 20, in which the 17 provide with the magnets e plate 16 is used.

The mode of operation of the semi-permanent allocator can be, for example are explained with reference to FIG. If the word line @ with the setting input verden a flip-flop tetrad and a read pulse is sent to the Magnet 17 marked cable is applied, so the second flip-flop from below set. At its output there is an L, i.e. the extent of the flip-flon tetrad displays the binary digit OLOO or a 4. By a different arrangement of the permanent Magnets @@ he excitation of a corresponding magnet combination know the @@@ folder any program can be assigned.

P a t e n t a n s p r ü c h e:

Claims (8)

Claims: 1. Controllable allocator, characterized by semi-permanent Coupling elements whose resistance value is as high as an acting magnetic field is determined. 2. Allocator according to claim 1, characterized in that as a semi-permanent Coupling elements resistors (4) are used. 3. Allocator according to claim 2, characterized in that the resistors (4) in the form of a matrix at the crossing points of the word lines (3) and the read lines (2) are arranged on a carrier plate (1). 4. Allocator according to claim 1, characterized in that the magnetic fields are generated by permanent magnets (17) or by electromagnets (8); 5. Allocator according to claim 4, characterized in that the permanent magnets (17) and the Electromagnets (8) are each carried by a plate (16.5). 6. allocator according to claim 3, characterized in that the resistors (4) can be covered with a masking plate (6!). 7. Allocator according to claim 5 nd 6, characterized in that from the the plate (1) carrying the resistor matrix and the plate carrying the electromagnets (8) Plate (5) a cassette for receiving the mask plate (6) is formed. 8. allocator according to claim 5, characterized in that the plate (1) with the resistors (4) one side of a cassette for the permanent one Magnet (17) supporting plate (16) represents. L e r s e i t e