DE1116448B - Selection circuit with a minimum of relays and necessary switchover contacts, especially for track selection in rotating magnetic storage - Google Patents

Description

The invention relates to a selection circuit with relays and diodes, shown here using the example of a track selection should be explained for rotating magnetic storage.

Circuit arrangements for track selection are known which use extensive groups of networks with diodes, resistors and capacitors, more recently also with transistors and ferrite ring cores. If the memory and thus also the track selection is made by opening or closing mechanical contacts, for example by a control rail in electronic invoicing and accounting machines, a relay circuit can also advantageously be used while avoiding the expensive tube or transistor circuits. Known relay circuits are based on the dual system. In this case, corresponds to the first of "channels, a relay with 2 ° changeover, the second channel a relay with switching contacts ¹ 2 and finally the channel η one or more relays with a total of 2" -. ¹ changeover The expense of changeover channels for η is therefore

₂ o + ₂ i + 22 + · · · + 2 »-i = 2" -. 1.

If one calculates for known relay designs with a maximum of eight changeover contacts per relay, then the need for relays increases sharply with «. The spatial expansion of known relays then leads to an unacceptable space requirement. The task is thus to find a circuit for selecting memory locations on rotating magnetic memories, taking advantage of the low cost of relays and the small space requirements of semiconductor diodes, which uses a reduced number of changeover contacts compared to a number of 2 " -1 changeover contacts and thus reduces the effort By the selection circuit forming the subject of the invention, in which a plurality of AND circuits are actuated by a relay arrangement in order to release exactly one item of information from all AND circuits for one of the inputs of all AND circuits, while the rest of the AND circuits -Circuits remain blocked for this information, this object is achieved in such a way that two of the inputs of each AND circuit are connected to the connections on both sides of a relay circuit in such a way that the assignment of the relay switching contacts to the two inputs of each AND circuit ensures that with all AND-Sc attitudes except exactly one at least one of the two inputs at a voltage of 0 volts selection circuit

with a minimum of relays

and necessary changeover contacts,

especially for track selection

with rotating magnetic storage

Applicant:

VEB Büromaschinenwerke Sömmerda,
Sömmerda (Thür.)

Helmut Logisch, Sömmerda (Thür.),
has been named as the inventor

is, while with exactly this one AND circuit the two inputs carry a voltage of 0 volts.

In the presence of η control pulses, the arrangement is such that for n = 1 and 2 each relay has a changeover contact and that for n = 3 and 4 a relay with four changeover contacts is added and that for further increasing η on both sides of the relay circuit the number of changeover contacts for each relay compared to the number of changeover contacts of that relay which had the highest number of UK with the value of η lower by 2, and that furthermore for n = 1 and 2 the circuit only consists of those at one voltage of 0 volt switching points actuating relays and that finally, for greater η, the two outer relay contacts are at 0 volts, while the inner ones, connected in pairs, can be connected alternately to the outputs of the previous relay and to 0 volts.

Further features can be found in the subclaims.

The track selection in each case has the task of η control information from 2 "to select options. Two control inputs are now for the track selection per amplifier necessary. The selection of one of 2" possible according to the invention realized in that in each case exactly one speech and monitoring amplifier both Inputs are free, i.e. not connected to 0 volts, which means that information arriving at a third input is allowed through,

109 737/231

while with all other amplifiers at least one of the inputs is at 0 volts, the amplifiers are therefore blocked.

Fig. 1 shows the complete circuit of the amplifier module in a schematic representation,

FIG. 2 shows the symbolically summarized representation of the circuit according to FIG. 1 for further use in the circuit according to FIG. 6. The circles are symbols for the speech and monitoring amplifiers; the two connections present in each case represent the control inputs for the track selection according to the invention represent.

Fig. 3 shows the principle of the selection circuit according to the invention with a relay. This circuit shows the following regularity in the arrangement of the relay contacts: For n— \ and 2 each relay has a changeover contact, for n = 3 and 4 there is one relay with four changeover contacts. As η continues to grow, the number of changeover contacts for each relay doubles on both sides compared to the number of changeover contacts of the relay which had the highest number of UK with the value of η being 2 lower. The switching of the switching contacts is as follows: For «== 1 and 2 the switching consists only of the relays A3 and R4 of Fig. 3. The switching points UP of the relays are at a voltage of 0 volts. For greater η , the two outer relay contacts RK are connected to 0 volts, while the inner ones, connected in pairs, are alternately connected to the outputs of the previous relay and to 0 volts.

FIGS. 4 a and 5 a show the interconnection of the groups of binary numbers am and bm with the relay contacts Am and Bm (see FIG. 3):

1. For the groups of binary numbers bm , the sequence is retained:

BO- bO Bl - bl

40

2. For the groups of binary numbers am , the first half of the new indices is obtained by doubling the previous indices, the second half by adding 1 to each of the doubled indices:

η = 1 η - = 2/3 η = 4/5 η = 6/7 50 AO - aO AO - aO AO - - aO AO- aO Al -al Al- -al Al- a4 Al- -al Al- al 55 A3- - «3 A3 -a6 A4 - al A5 - aS A6-A3 Al - al 60

To the four outputs ^ 0 . ..A3, the inputs aO ... a3, ie eight amplifier inputs each, are connected according to the scheme of FIG. 4a; the assignment of the aO ... a3 to the numbers 1 ... 32 is shown in Fig. 4b. The other inputs are connected to the BO ... B1 in groups of four according to the scheme in FIG. 5a; the assignment of b 0 ... b 7 to numbers 1 ... 32 is shown in FIG. 5 b. In general, as many connections are placed at each output on one side of the relay circuit according to the invention as there are outputs on the other side, so that the information selection is always clear.

An exemplary embodiment is shown in the drawing. 6 shows a relay circuit according to the invention for track selection for a rotating magnetic memory provided with 32 tracks. For the purposes of the invention, five relays Rl ... RS are necessary in order to be able to carry out an unambiguous selection of continuously one of the possibilities. The selection commands in the form of the dual channel pulses control the selection relays Rl ... R5 , whereby, according to the invention, the pulses with the dual values 2 ° are switched to Rl, 2i to Rl ₃ 2 ² to A3, 2 * to R4 and 2 * to R5 . The outputs Am and Bm are connected to the two control inputs of the speech or listening amplifier shown and explained in FIGS. 1 and 2 in such a way that a selection according to the system of FIG. 7 occurs. 7 shows the way in which the binary numbers 1 ... 32 of the five dual channels 2 ° ... 2 ⁴ cause the selection relays R1 ... R 5 and the speech or monitoring amplifiers A , the tracks 1 ... 32 of the rotating magnetic storage. Each binary number corresponds to one and only one track on the circulating memory. In Fig. 6, the position of the switch (Konaktfedern the five selection relays Rl ... RS) is drawn so that the holding contact position of the relay is assumed and the relay Rl .. .RS the dual combination 00000 is.

Claims (5)

PATENT CLAIMS: 1. Selection circuit with a minimum expenditure of relays and the necessary change-over to release an incoming for on one of the inputs of the AND circuit information from a given number of AND circuits accurate, while all other AND gates are disabled for this information, characterized characterized in that two of the inputs of each AND circuit are connected to the two-sided connections of a relay circuit (Fig. 3,6) in such a way that by assigning the relay switching contacts to the two inputs of each AND circuit it is achieved that with all AND circuits except for exactly one at least one of the two inputs is at a voltage of 0 volts, while with precisely this one AND circuit the two inputs carry a voltage of 0 volts. 2. Relay circuit according to claim 1, characterized in that in the presence of "control information fürn = l and 2 each relay has a changeover contact and that for n = 3 and 4 a relay with four changeover contacts is added and that for further growing η on both sides the relay circuit doubles the number of changeover contacts for each relay compared to the number of changeover contacts of that relay which had the highest number of UK with the value of η lower by 2 and that furthermore for «= 1 and 2 the circuit only consists of the an a voltage of ö volts 'points (UP) ^ active relays (R3 and R4) and that finally, for greater η, the two outer relay contacts (RK) are at 0 volts, while the inner ones, connected in pairs, can be connected alternately to the outputs of the previous relay and to 0 volts. 3. Arrangement according to claim 1, characterized in that each relay of only one Dual channel is controlled. 4. Arrangement according to claim 1, characterized in that each binary number is one and only corresponds to a track on a rotating magnetic memory. 5. Arrangement according to claim 1, characterized in that in the input lines of the AND circuits are switched on means with flow valve-like behavior. 1 sheet of drawings