DE1298554B - AND gate for the logical connection of n binary variables with n transmitter pairs - Google Patents

Description

1 2

The invention relates to an AND gate for connecting logical transformers that each of the one see linkage of π binary variables with or the other input winding of a transformer n transformer pairs with each transformer two of the two pairs via one or the other transformer The possible values of a variable are assigned a voltage in the sense that is determined by the bias voltage and the winding input windings opposite the number of windings, with the corresponding input windings being in the opposite direction of the diodes connected to this transformer in the output lines of the transformer of a transformer pair are connected in series and the input windings connected output lines are transmitted, and pulse-shaped, distinguishable from the idle state that characters are supplied via the other or the one transmitter. io a voltage in the reverse direction of the diodes of min in an allocator with transformers with at least (n-1) times the amount of the determined range of a linear hysteresis loop are transmitted to the remaining output lines for conversion.

nary variables in a (1 out of r) representation. Another solution to the problem is to use AND circuits. On the 15 according to the invention, characterized in that the outputs are a majority decision. Each transformer of the transformer pairs have an additional-Normally η units, which carries as a lee winding and these two windings are shown per-voltage or current units, because they are connected in series in opposite directions, that a distinction is made between n-1 units. Examples of the respective free winding ends for such circuits are shown in Figs. 12, 14, ao lines a diode is connected and all diodes ge-15, 16, 17 and 18 of the German Auslegeschrift together with one of these diodes in the idle state 1142 386 shown . There is also a method of blocking bias voltage source that is known, in which the smallest occurring difference between two pairs of transducers is one of the number of through-to-units, although the number of the very significant leading links has the disadvantage of a different direction of the loop Output lines is assigned that the output connection of the output lines must be accepted according to the verden to be carried out and, moreover, when η is large, the difference in connection with the output winding is still too small in each case for only one of two units. Transformer of a transformer pair are connected, as a result of the unavoidable in practice that the respective a link corresponding flows of the tolerances of the electrical and magnetic 30 output windings of each transformer pair table values of the components and the environment are connected in the same direction in series that in each influencing factor is the number of detectable input-output lines a divariable corresponding to each other in all such AND combinations is switched on with the same polarity and is very limited. From the German interpretation that the output windings are distributed in such a way, the publication 1067 470, it is known to connect to the formation of a 35 output lines with the transformers that AND function with transformers a signal voltage each from one or the other input of the series-connected, in opposite directions with the winding of a pair of transducers over one or the other connected windings of two transducers, the other transducer can be removed by biasing. This summation is numerical and the number of turns of the windings is just as limited as in the circuits after the voltage in the forward direction of the diodes connected to the output lines connected to the output lines circuit arrangement connected to this transformer to carry out the logical transmission, and that via the other or the function AND with η binary variables to create a transformer a voltage in the reverse direction of which one despite the tolerances of the components and 45 diodes of at least (nl) times the amount of the referenced characters and despite the fact that the voltage is correct for the environment, it is also transferred to the remaining output line flows for a large number η of variables gen.

can use without the disadvantage different. In these circuit arrangements, the number of

Sense of direction of the output loops in purchase to be linked input variables

to have to. 50 limits the tolerances that can be met.

A solution to this problem is according to the invention characterized in that the connection-speaking output line then add the points of the oppositely connected in series in the forward direction of the associated diode indugangswicklungen via a diode each on a common - Adorned voltages, while on the other seeds, these diodes in the idle state blocking 55 output lines are the bias voltage induced in the forward direction that each transformer pair a voltages are compensated by the voltage induced in the reverse direction of the number of links to be performed. When switching the corresponding number of output lines according to the invention, it is ensured that this is already in order, that the output lines are sufficient, in accordance with a single variable in the reverse direction in the connection to be carried out with the exaggerated voltage, in each case to only generate the output winding a transformer of all n-l other variables are connected in the forward direction transformer pairs to compensate for the respective induced voltages,
In the arrangement described last, there is also the possibility that both values of each series are connected in the same direction, that in each output line 65 output variables as a positive or negative pulse, a corresponding diode in the same direction are fed to the same input,
The polarity of the diode is switched on and that the output lines are distributed in such a way that the output lines are particularly suitable for allocators with many input variables,

3 4

for subsequent circuits with a large number of subsequent stages, for two separate inputs for the two values X, X

Selection circuits with many selection criteria and a binary input variable,

for sampling circuits with many sampling criteria, the EHe output lines Se 1 to 5 are via the

Are to be linked in an AND-form. magnetic coupling elements Sm 1 or Sm 2 and

The circuit arrangement according to the invention and 5 via the windings Wl, W 2 and W 3, W 4 with

their application should be connected to the input .äf or X on the basis of the drawings. There are those

further explained. Output lines Let up to Ser all with the same

1 shows a circuit arrangement according to the sense of direction in the coupling element 5ml or Sm 2

Invention threaded for performing the logical function. The input line EX is between the

AND with three binary variables; io both windings Wl, W 2 via the diode D 2 with

F i g. 2 shows part of the circuitry of the fixed bias voltage + Uv connected. Of-

for a variable in another embodiment same is the input line EX between the

than in Fig. 1; two windings W3, W4 via the diode 1 with

F i g. 3 shows the corresponding part of the circuit- the same bias voltage + Uv connected,

processing arrangement in the Fig. 1 corresponding 15 z. B. on input X a positive pulse

Embodiment; with the amplitude Ue , then the

Fig. 4 shows a modification of the circuit winding Wl a positive pulse to the output arrangement according to FIG. 3 for the case that the two lines Be, Se 3 ... and via the winding W2 values of one of the variables occur as counter pulses - a negative pulse on the output windings of the polarity set at the same input; so Ne2 ... Ser transferred. With the assumed

F i g. 5 shows the application of the circuit arrangement- the number of turns ratio 1: 1 is the

tion according to the invention in a allocator. pelelement Sm 2 transmitted negative voltage

In FIG. 1, the value pairs of the supplied diode D2 are limited to the amount / v. To the-

Input variables labeled with a, ä, b, Έ or c, "c - according to the 5ml via the coupling element

net. It is assumed that every value carried as »5 voltage corresponds to Ue-Uv.

a pulse that can be distinguished from the idle state. In the case of a positive pulse with the amplitude Ue

a special line Ll, L2 is fed. at the input X W4 is a positive across winding

For each variable there are two transmitters Vl, t / 2 or tiver pulse on the output lines 5e2 ... Ser

Ü3, Ü4 or US, Ü6 arranged in which the pair and a negative pulse on the winding W3

wise oppositely connected in series windings 3 ° the output lines Sei, Se3 ... transmit. In

for the input signals, the windings for this case is the one via the coupling element SmI

Voltage limitation, which will be explained in more detail later, negative voltage transmitted across the diode Dl

and in coded distribution, the output lines are limited to the amount Uv , consequently the

Be until ser are threaded. The transformers have voltage transmitted via the coupling element Sm2

a linear hysteresis curve to a first approximation. The 35 the amount Ue Uv.

Windings W for the voltage limitation will be two values of the input variables are in pairs with a common end connected to ground and to a part of the output lines negative immit the other end via a respective diode D to a pulse in the forward direction, to another common bias voltage source + Vs. For each part of the output lines positive impulses are induced in the supplied combination of input signals 4 ° reverse direction of the output lines,
A current only flows in one output line. In the example, there are three input variables. If the amount Uv, the pulses in the reverse direction have z. B. on the line Ll a pulse of amplitude the amount Ue-Uv. By choosing the fixed supply Ue , the voltage + Uv in the transformer Ül can always be achieved with η input variables threaded output lines Sei, Se3, Se5 ... a 45 that a positive pulse, the einge- in the transformer Ό2 pulse reverse n-l pulses in the through threaded lines Se 2 Se 4 ... Ser a compensated securely negativei laßrichtung. Transferred from the safety impulse, as shown later on the basis of FIG. 2, the impulse in the blocking direction may be shown in detail. With the help of the di- in the forward direction, also arbitrarily overcompenode D , the pulse will sieren in the forward direction of the di- 5 °.

öden DKl to DKr limited to the value Uv , which in the case of the execution pulse corresponding to FIG. 1 in the reverse direction of the diodes DKl to DKr form of the circuit part arranged per variable has the value Ue-Uv. The voltage U is so-according to FIG. 3, a positive pulse from is also chosen so that UE Uv> 2 · Uv is. Input X via the windings Wl and W2 and

The looping in of the output lines Let 55 be the coupling elements Sm 3 and Sm4 as positive

.. .They differ in at least one or negative impulse on the coupling elements

Variables. So is z. B. the line Be the menten looped output lines transmitted.

Values abc, the line Se2 to the values a ~ bc. However, in the embodiment according to FIG

orderly. If the input information äbc is the negative transmitted via the coupling element Sm 4

entered by corresponding positive pulses, so 60 tive pulse via the separate winding W 6 with

add up in the line Let three voltage help of the diode D4 and the bias voltage + Uv be

units Uv in the forward direction of the diode.

DKl, there is a current flowing. In all other lines accordingly in the embodiment according to

no current flows because the voltages in the passage F i g. 1 and 3 when activated at input X

direction of the diodes DK2 ... DKr by either the negative 65 transmitted via the coupling element Sm 3

opposing voltages compensated or excessive impulse via the separate winding W 5 with

be compensated. Using the diode D 3 and the bias voltage + Uv

The circuit arrangement according to FIG. 2 owns borders.

A suitable number of turns can be selected for the windings WS, W6; this makes it possible to link a large number of variables with easily realizable voltages.

In Fig.l to 3 it was assumed that the two values of the input variables as positive pulses two different inputs can be entered.

4 shows a modification of the circuit according to FIG. 3 for the case that the two values of the input variables are entered as a positive or a negative pulse at the same input. In the event of a positive input pulse, a positive pulse is transmitted via the winding W1 and the coupling element Sm 5 and a negative pulse is transmitted via the winding W2 and the coupling element Sm 6. The negative pulse is limited via the winding W 6 by means of the diode D 4 and the bias voltage + Uv. If the input pulse is negative, a negative pulse is transmitted via the winding Wl and the coupling element 5 / n5 and a positive pulse is transmitted via the winding PF 2 and the coupling element Sm 6. The negative pulse is limited via the winding 1 ^ 5 by means of the diode D 3 and the bias voltage + Uv. Otherwise, the structure and function of the circuit in FIGS. 3 and 4 are the same. The voltage limitation implemented in these examples can of course also be implemented with passive voltage sources such as Zener diodes.

In Fig. 5, a allocator is shown as an application example for the circuit arrangement according to the invention. Because of the clarity of the representation, only three input variables were chosen. However, the advantages over known arrangements grow with the number of variables. For the allocator according to FIG. 5 basic circuits in the embodiment according to FIG. 3 were chosen. The connections ac ... cc are the inputs, the connections du., .Ff the outputs. The outputs do not necessarily have to be designed in such a way that both values of the variables are output as a character that can be distinguished from the retirement.

The assigner works in such a way that a current flows in the direction specified by the diodes DKl ... DKr through an input information input in one of the lines Sei ... Ser and transmits a pulse to the assigned magnetic output elements Sma. The (1 from r) information can be picked up in binary-coded form on their output lines d ~ ä .. .ff.

Claims (3)

Patent claims: 1. AND gate for the logical combination of η binary variables with η transformer pairs with two input windings in opposite directions for each transformer assigned to the two possible values of a variable, whereby the corresponding input windings of the transformers of a transformer pair are connected in series in opposite directions and the input windings are pulse-shaped from the idle state distinguishable characters are supplied, characterized in that the connection points of the input windings connected in series in opposite directions are each connected via a diode (D) to a common bias voltage (+ Uv) that blocks these diodes (D) in the idle state, that each transformer pair (Ol, Ü2 . .. US, t / 6) a number of output lines (Be .. .Ser ) corresponding to the number of links to be carried out (maximum 2 ") are assigned so that the output lines are connected to the output winding of only one transformer of a transformer pair in accordance with the link to be carried out, that the output windings of each pair of transducers corresponding to a link are connected in series in the same direction, that in each output line a diode (DK) polarized in the same direction with corresponding diodes (DKl Connect transformers that in each case from one (Ll) or the other (L 2) input winding of a transformer pair via one (Ul) or the other (U 2) transformer a voltage determined by the bias voltage (+ Uv) and the number of turns of the windings in the forward direction of the diodes connected to the output lines (DKl ... DKr) to the output lines connected to this transformer (e.g. B. Sei, Se3, SeS ... ) Is transmitted, and that on the other (Ü2) or the one (Ul) transformer a voltage in the reverse direction of the diodes (DKl to DKr) of at least (n- I) times the amount the specific voltage is transmitted to the remaining output lines (Se2, Se4 ... Ser). 2. AND gate for the logical combination of η binary variables with η transformer pairs, each transformer with two input windings in opposite directions assigned to the two possible values of a variable, whereby the corresponding input windings of the transformers of a transformer pair are connected in series in opposite directions and the input windings are pulsed from the idle state distinguishable characters are supplied, characterized in that each transformer of the transformer pairs carries an additional winding (WS, WS) and these two windings (WS, W 6) are each connected in opposite directions in series, that in the lines leading to the free winding ends Diode (D 3, D 4) is connected and all diodes (D 3, D 4) are connected together with a bias voltage source blocking these diodes in the idle state, that each transformer pair (Ul, Ü2 ... US, Ü6) one of the number of links to be carried out (maximum 2 ") corresponding number of output lines lines (Sei .. .Ser) is assigned that the output lines are connected to the output winding of only one transformer of a transformer pair according to the link to be carried out, that the output windings of each transformer pair corresponding to a link are connected in series in the same direction that in each output line a corresponding diode (DKl ... DKr) the same polarized diode (DK) is switched on and that the output windings connect the output lines with the transformers distributed in such a way that one (Ll) or the other (L 2) input winding of a transformer pair via one (Ül) or the other (Ü2) transformer one by the pre voltage (+ Uv) and the number of turns of the windings determine the voltage in the forward direction of the diodes (DKl ... DKr) connected to the output lines on the output lines connected to this transformer (e.g. Sei, Se 3, Se5 ...) is transmitted, and that on the other (Ü2) or the one (Ül) transformer a voltage in the reverse direction of the Diodes (DKl to DKr) of at least (n - 1) times the amount of the determined voltage is transmitted to the remaining output lines (Sei, Se4 ... Ser). 3. AND gate according to claim 2, characterized in that that both values of each input variable are fed to one and the same input as a positive or negative pulse. 1 sheet of drawings 909527/393