DE1291788B - Information shift register - Google Patents

Description

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The invention relates to information flow through the adjacent lane, these shift registers can with bistable, anisotropic, magnetic pressures with a different speed tables thin films. before moving back to the main

An information shift register has already been introduced, which is a consequence has been struck, in which an information from 5 zones of reversed magnetization state pressure in a strip of a bistable, anisotropic, is formed by precision. This structure enables Magnetic light applied to a base also carries out a new temporal thin film, usually as a whole in the sequence of expressions, with the adjacent track in front of its stable magnetization states temporarily stores the expressions during the is introduced by a zone opposite to ίο passing through a zone of opposite magnetization magnetic state is blocked along the main track when the film is streaked, fen is generated, which is then along the strip

shifted by the action of a sequence of magnetic fields with the drawing in one embodiment which purifies progressively in the longitudinal direction. It shows the strip by applying electric current. 1 schematically shows a plan view of two information pulses to a scheme of shift registers located above the strip, which are on a common are placed on the extension ladders, with the underlay attached,

Information expression by introducing an elec- F i g. 2 shows a schematic view of a section

tric signal is read into a sensing conductor, along the line ΙΙ-Π in F i g. 1, which with the film strip at one point in his 20 F i g. 3 in a schematic view another longitudinal direction away from the point at which the guide form of information shift registers and Expression has been introduced, is read out, and F i g. 4 is a schematic representation of a part

reverse the electrical signal by passing the zone around a composite information shift State of magnetization on the feeler, which is caused by the conductors with the backs against each other is induced over. 25 other connection between two registers

Such an arrangement works satisfactorily. 1 is formed.

lend, for example, if it is necessary, only ^ According to the F i g. 1 and 2 of the drawing show two the occurrence of the output signal with respect to the shift registers 11 and 12 each have a main track 1 Introduction of the information printout and a secondary track 2, which consists of a bistable, hesitate; In doing so, however, it is necessary that an anisotropic, magnetic, thin film be approximately counter-separated Information printout is made in the register for constant thickness. In every register any desired output signal is introduced. and 12, the magnetic film is continuous Furthermore, it is not possible here to carry out the reading along the main lane 1, along the secondary lane 2 and of the output signal to be stopped when an off in a junction 3 between the main pressure has been introduced once. The goal of invention lane 1 and adjacent lane 2. Any magnetic film The aim is to avoid these disadvantages. has an easy axis of magnetization, roughly in

According to the present invention, it is proposed that the main track 1 is formed in the longitudinal direction. the that the magnetic stripe becomes a main track on the registers 11 and 12 magnetic films and that an adjacent lane is received by subdivision of a base 4, the openings 5 of the strip is provided, the zone having around 40, which on each side of each minor Magnetization of one track to track 2 are provided. A sensing conductor 6 and a others, due to the sequence of magnetic fields, reading strips 7 run transversely to the adjacent spindles that is over the junction of the ren 2 and are screwed into the openings 5 so both lanes are abandoned. that they are in the immediate vicinity of the adjacent lanes 2

This enables the displacement of a zone 45 and on opposite sides of the base 4 from the main lane to the adjacent lane that the in-lie where they cross the main lane 1. A f The sliding barrier conductor 8, which is selectively separated from the adjacent lane, is associated with each adjacent lane 2 can be read while a zone is reverse-coupled, the ends of the conductors 8 through the th magnetization state continues to be passed through openings 5 undisturbed. The ladder 6.7 can be moved along the main track. When 50 and 8 are in front of each other and by the magnetic the main track is connected at the ends so that films and the pad 4 is insulated, a loop is created, the zone can be reversed. A first set of sliding control ladders 9 is on

Magnetization state in the main track, the magnetic films are continuously applied. The ladder 9 renuierlich revolve, and with each revolution a can stretch across the tracks and are magne output derived from the adjacent lane or table with lanes 1 and 2 and the connection but prevented that it is only coupled from point 3 of both registers 11 and 12. The Lei adjacent lane is read out. ter 9 are spaced from each other and

The area of the reversed state of magnetization alternates in the opposite sense of direction in des can also be connected in series in the opposite sense. A second similar set of be pushed so that information expressions in 60 sliding control ladders 10 is placed over the ladder 9, the adjacent lane can be introduced, the conductors 10 being opposite to the conductors 9 such expressions then offset across the junction that the conductors 10 across the spaces arrive and from there lie along the main track between the conductors 9. The sets of sliding sliding will. The use of two connection control conductors 9 and 10 are mutually exclusive This allows the zones to be surrounded by a magnetic film through insulating layers (not inverted Magnetization state from the main shows) isolated. In order not to lead to a confused view of the drawings Going into the next lane and then back into the loan are just some of the ladder 9 and 10 Main track to be moved. Shown during theirs. The sliding control ladder 9 and 10 are, however

1 29Ϊ 788
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along the entire length of the registers 11 and 12, rich 19 in two separate, corresponding areas along which the information is shifted, reversed magnetization, one of which is provided in the fore. Setting of main track 1 and the others in the Write conductors 13 and 14 are magnetically connected to the adjacent track 2. As the control conductors 9 and 10 ma main lanes 1 of registers 11 and 12 coupled. 5 are magnetically coupled to both tracks 1 and 2, The conductors 13 and 14 are transverse to the corresponding areas, the two corresponding areas are longitudinal speaking main tracks 1 in the vicinity of the left two tracks 1 and 2 of the register 12 together Arranged at the end of registers 11 and 12, as shown in FIG. 1 postponed.

shows. Write drive power sources 15 and 16 are at when the area in the adjacent track 2 is being sensed Ladders 13 and 14 connected accordingly. When io conductor 6 is moved past, a change occurs in conductors 9 and 10 are shift control current sources of the flux linkage of sense conductor 6, and da-17 and 18 connected. Furthermore, there is a read-off signal in the sense conductor 6 in the drive current source 21 with the reading head 7 in duced. If desired, the amplitude of the Link. Reverse current sources 22 and 23 are connected to the output signals by energizing the read drive reverse conductor 8 of registers 11 and 12 connected. 15 conductor 7 by a current from the power source 21 During operation, an information component can be enlarged that has such a polarity, one of the registers 11 or 12 are introduced, or that it resets the area if this is in a information components can be moved into position below the conductor 7 at the same time. Both Register 11 and 12 are introduced. Since that results in a more rapid change in flow and Mode of operation of both registers is the same, it is only consequently a larger output signal, Required, in detail the working method of a Re- When information components through simultaneously gisters, e.g. B. the register 12 to consider. Both registers 11 and 12 have been moved, It is assumed that the filmstrip's will be a selection of the register from the Infor register 12 should be read out completely in one direction at the beginning by selective demagnetization is. A piece of information is reached in 25 motion of the sliding barrier ladder 8. The head 8 the register 12 is introduced by a current pulse of the selected register not energized The conductor 8 of the unselected controller is passed from the source 16 to the write conductor 14 is used so that a magnetic field is generated by a current from the corresponding gisters that excites the direction of magnetization of a loading source 22 or 23, so that each area encompasses 19 of the magnetic film is reversed. The returned magnetization is reset, which is shown in Information printout is guided along the Re- a position that has been shifted from the gisters 12 displaced by influencing the two sets of magnetic field from conductor 8. Conductors 9 and 10 alternately by current pulses As a result, the information representing runs are excited from sources 17 and 18. Subsequent area of the selected register 11 or 12 Lowing excitations of each sentence received 35 the sliding barrier conductor 8, while the in alternating opposite polarity. When the formation-representing areas of the not-out area 19 reverse magnetization under a selected register by the energized conductor 8 ge conductor 9, generates the excitation of the set of being quenched before they reach the sense conductor 6. Conductors 10 by a current pulse from the source. An information displaying area 19, the 18 a magnetic field that is shifted along a side lane 2 along the magnetic feed 40 may arise of the film on the left edge of the area 19 neither due to the excitation of the slide lock F i g. 1 reverses, as well as a magnetic field, the conductor 8 or due to the read conductor 7 the film can be reset to its original state on the right edge, and with that the information goes of area 19 tried to reset. As a result, lost from adjacent lane 2. Since conductors 7 and 8 this results in a shift of the area 19 into a 45 but not coupled to the main lanes 1, Position under one of the current conductors 10, which are the corresponding, the information darstel direction Areas in the main tracks 1 associated with the displacement by the arrow 20 are not deleted shows is. Similarly, excitation results in and can through feedback conductors, not shown 9 shows a shift of the area 19 in the amplifier from reading circuits, not shown, which same direction in a position below one of the so coupled with the ends of the main tracks, in Conductor 9. The value of the excitation currents that are put into circulation for the write conductors 13 and 14, tern 9 and 10 through the power sources 17 and 18 to- Another method of achieving the circulation is not allowed to be so large that information components are scattered in FIG. 3 of the Areas of reverse magnetization generated are shown in the drawing. In this case the spuds but it may only be so large that the 55 ren 1 and 2 on a cylindrical base 24 information performing area 19 is moved. ordered so that the main tracks 1 are continuous The direction of the shift is formed by the sequence of circumferential loops. This means that the in- and the polarity of the excitation of the conductors 9 and 10 is determined around the closed areas constituting formation. A continued excitation of conductors 9 and 10 in 60 from conductors 9 and 10 is put into circulation. It kicks the way described above causes the loading no negative feedback of the areas reverse richly progresses towards junction 3. Magnetization during the shift on, and If the displacement follows along the connection point 3, feedback amplifiers are therefore not required in the same way, the area 19 expands.

stepping out laterally and occupies the entire width 65 if the direction of displacement is relative to

connection point 3. When the end of the formation of the main lane 1 and the secondary lane 2

Passes junction 3 where the adjacent lane is reversed (i.e. in the opposite direction

splits off from the main track, the curve divides towards arrow 20), areas become reversed

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Magnetization that occurs in the main track 1, e.g. B. of the same effective length as the part 26 of the main register 12, to the right of the junction 3 leading lane to which it runs parallel, it can are displaced along the main track 1, but also have a different length, rend areas that exist in the secondary lane 2 If the secondary loop 25 has a different are, along the secondary lane 2 in the main lane 1, effective length compared to that of the part 26 of the be pushed. If areas have reversed Magne main track, the relative positions of the tization in corresponding positions both in the information components in two such co-main track 1 as well as in the adjacent track 2 available registers can be changed in that these areas are both common with the the constituent parts in a composite regi-junction 3 moved, where they are moved into one another io ster along the main track 26 pass and reverse a single area and that a shift along the secondary loop Form magnetization, which is then prevented along the main 25, while in the other to track 1 is moved. It follows that the composite registers are the information inventory junction 3 are shifted as an OR gate for information parts along the secondary loop 25, Information components in the adjacent lane 2 and for In- 15 As a result, information components that formation components in the right end of the main at the same time in corresponding positions in the two Track 1 works, with the resulting output composite registers being introduced, too information read out in the common or left end of the different times. In this way Main track 1 occurs. the value of the components can be changed.

The above reverse slide arrangement can be used to 20 The effective lengths of the secondary loop 25 and Introducing information into the main track of one of the main track part 26 is indicated by the number of Register can be used, e.g. B. the register 12, so coupled sliding control ladders 9 and 10 leg which initially matches the information in the next lane. Thus, the secondary loop 25 and the guided and then the main track part 26 representing the information have the same spatial length, Area is moved to main track 1. However, as separate sets of sliding control ladders 9 and Erase conductor (not shown) is to have the main track 1 10, as in F i g. 4 shown. Everyone has coupled to the right of junction 3; this set has a different conductor spacing. Other leader deletes the main track 1 by having areas on the other hand, they can have different lengths with the same reverse magnetization, the distance between the conductors 9 and 10 on the quenching conductor. After a have been moved. In another variant, the sliding control ladder 9

If the direction of displacement in the above and 10 of the secondary loop 25 by pulses with a Is reversed in a manner, the reading conductor can have different repetition rates compared to those information in the adjacent lane 2 - the conductors 9 and 10 of the main lane part 26 to the Register 11 and 12. Of informa- tion, to be excited. In another part of the animation If the main track 1 is then one of the 35 order, the main tracks of neighboring ReRegisters can 11 and 12 introduced. A selection of the gister linked by side tracks Register is made by energizing the blocking conductor 8 of the, whereby the along the main track 1 of a Renicht selected register causes, so that with gisters shifted information along the adjacent track a shift of the introduced information distribution in the main track 1 of the adjacent register the information in 40 is pushed against the main lanes 1. The path the information takes tab that has not been selected is deleted. The rend that follows the shift is through sliding blocking ladder 8 of the selected register is not controlled. Blocking conductor is controlled with the corresponding parts stimulates, and the introduced information is therefore linked in the tracks.

moved the main track 1 of this register. The traces of a register can expediently

The arrangement described above for reading 45 consists of a single strip of magnetic, from a register and for writing into a thin film of approximately constant width and thickness allows the use of a single put, with the strip through one Sense amplifier and a single write drive slot is divided into main and secondary tracks. So bes, and since it is only required that the barrier is the width of the main track 1 across the ends current is fed to the blocking conductor before the 50 of the adjacent lane 2 out the full width of the strip, Information-presenting area arrives, which is only a fraction of the width of the strip is to be deleted, a relatively one-way along the adjacent lane 2.

high-cost and inexpensive lock-out selection circuit, although only uses two registers 11 and 12 that are open to

will. a single pad 4 are applied, loading

A register in which a shift in Fig. 55 has been written and displayed may be a Direction of arrow 20 of FIG. 1 takes place, can with a larger number of registers on a single can be combined in a register in which the documents are provided. The shift tax shift occurs in the opposite direction head would then be common to all registers, (both registers have been described above). The and the reading drive, sensing and writing conductors Adjacent tracks 2 are then linked with one another so that 60 would then be linked to all registers, bound that they would have a continuous adjacent lane- Separate sliding barrier ladder 8 in this case Form loops that are used in parallel with each other for each register, and these conductors those parts of the main tracks of the two registers would be controlled by a selection circuit lies. Such a composite register is in the making.

F i g. 4 of the drawing, with the corresponding 65 If a large number of register tracks are used to turn parts of the two-component register, the electronic selector switch register may be provided with additions α and b to its reference numerals for selecting any register thereby. The secondary loops 25 can be simplified so that a variety of sliding

Blocking conductors for each register is used in place of individual blocking conductors. These leaders are so with each other connected to have an address decoding circuit, e.g. B. form a binary decoding circuit. The arrangement can then be selected so that a reading is only made from one register in which all sliding barrier conductors are de-energized, with a single energized sliding barrier conductor for prevention the shifting of the information is sufficient.

The magnetic films of any register can be deposited on a support by being deposited in Vacuum can be established.

Claims (11)

Patent claims: 1. Information shift register, in which an information expression is divided into a strip of a bistable, anisotropic, magnetic thin film applied to a base, which is normally as a whole in one of its stable States of magnetization is brought in, ao is brought about by a zone opposite magnetic state is generated in the film strip, which is then along the strip by the Effect of a sequence of magnetic fields is shifted, which progressively in the longitudinal direction as of the strip by applying electrical current pulses to a scheme from above the strip lying extension ladders are abandoned, the information printout by introducing an electrical signal is read into a sense conductor connected to the filmstrip a point along its length from where the term was introduced, is read out and the electrical signal by passing through the zone of reversed magnetization state is induced past the read conductor, characterized in that the strip a main lane (1) and that a secondary lane (2) by subdividing the strip is formed, with the zone of reverse magnetization from one track to the other is shifted by the sequence of magnetic fields that are transmitted via the connection point (3) of the two tracks are abandoned. 2. Information shift register according to claim 1, characterized in that the shift causes the zone of reverse magnetization to be along the main track on the Connection point (3) is moved and is split into two parts at the connection point, one of which is continued along the main lane (1), while the other part is in the adjacent lane (2) arrives, and that the adjacent lane has a sliding barrier conductor (8). 3. Information shift register according to claim 2, characterized in that the shift blocking conductor (8) is magnetically coupled to the adjacent track and is excitable so that it resets the other part in the one stable magnetization state. 4. Information shift register according to claim 1, characterized in that a read-off write conductor (7) is assigned to a sensing conductor (6) coupled to a track and that the Reading conductor (7) can be excited in such a way that it causes a rapid change in the magnetic flux, which is coupled to the sense conductor (6) when a zone of reverse magnetization the Sense conductor (6) happened. 5. information shift register according to claim 1, 2 or 3, characterized in that the main lane (1) is formed into a continuous loop and that the secondary lane (2) is a parallel branch track. 6. information shift register according to claim 1, characterized in that the shift a movement of the zone of reverse magnetization along the adjacent track (2) on the Connection point (3) to and a shift at the connection point (3) from the adjacent lane (2) to the main track (1) causes. 7. Information shift register according to claim 1, 2 or 3, characterized in that the main track (1) has first and second connection points (3 a, 3 b) and that the secondary track (2) the main track (1) at the first connection point (3 a) leaves and meets the main lane (1) at the second connection point (3 b) again. 8. Information shift register according to claim 7, characterized in that the time period for the displacement of a zone of reversed magnetization state in the longitudinal direction of the main track (1) between the first and second connection points is different from the time period for the displacement of a zone of reversed magnetization state along the adjacent track (2) is between the first and second junctions. 9. information shift register according to claim 8, characterized in that separate Schemes of extension ladders (9,10) are provided for the main and secondary lanes. 10. information shift register according to claim 9, characterized in that the Extension ladder (9,10) of the main lane (1) with electrical pulses of different repetition rates are fed from the extension ladders of the adjacent lane (2). 11. information shift register according to claim 1, 2 or 3, characterized in that at least two magnetic film strips are applied to a common base and that a scheme of extension ladders (9,10) is common to these strips. 1 sheet of drawings 909514/1546