SU729639A1 - Magnetic shift register - Google Patents

Description

The invention relates to automation and computer technology and can be used in memory devices on flat magnetic domains (PMD). A magnetic shift register is known, containing a magnet film with PMD progression channels, on the surface of which control buses 1 are located. However, the 9TOT register is relatively complicated. The closest technical solution to the invention is a magnetic shift register, which contains a highly compacted 1 magnetic film, in which there are "ico-kooperitivnye channels for the promotion of magnetic domains, a domain retention bus, located above the indicated channels through the magnetic domains and crossing the JBxnoA intersection. and stop-stop f st The disadvantage of the known register is the low density of the information due to the complicated configuration of the stop tires, which form the critical distance between two rows om located bends and not allowing full use of the physical capabilities of this type of magnetic shift register. The whole invention is to increase the recording density of information in a magnetic shift register. This is achieved by the fact that in the known device the stop bus is made in the form of a continuous conductor of zigzag shape intersecting diagonally the channels for moving the magnetic domains between two adjacent parallel portions of the domain holding bus and the hold bus between two adjacent parallel portions of the channels for promoting the magnetic domains.

The drawing shows a schematic diagram of the proposed magnetic shift register.

It contains a high-coercive magnetic film 1 having an easy magnetization axis (EMA), in which low-coercive channels 2 of the magnetic domain propagation are located, containing, under certain conditions, magnetic domains 3, the stop bus 4, intersecting the channels 2 of the propagation of magnetic domains between two adjacent parallel sections 5 domain retention buses between two adjacent parallel portions of the channel 2 for advancing magnetic domains.

The proposed magnetic shift register works as follows. When recording information in channel 2, a magnetic domain 3 appears. Then a uniform propulsive field is created throughout the film, which causes the recorded domain 3 to grow in both directions along the channel from its original position. Simultaneously with the application of a uniform pushing floor, 1 current pulses are supplied to the stop bus 4. The field created by this current on all odd segments of channel 2 by stop bus 4 is opposite to the advancement of iomen 3. Domain 3 growth is blocked by this field in the first segment of channel 2.

At the end of the advancement cycle of the 3 domain, the magnetic film 1 applies a uniform erase field, which makes it possible to reduce the domains. A loop until they are completely erased in channel 2. At the same time, a current pulse is applied to the hold bus 5, opposite to the erase field,

as a result, domain 3 remains under the first section of the channel 2 of the domain holding bus 5 domains.

Further promotion of domain 3 is similar to that described.

The implementation of the stop bus in the form of continuous conductors, which intersects the channels diagonally in the indicated places, allows to increase the density of information placement by no less than 2 times.

Claims (2)

1. USSR author's certificate number 347795, cl. G 11 C 11/14, 1972. 2. The patent of Germany No. 2321824, cl. G 11 C 19/00, publ. 1973 (prototype).