DE977719C - Switching device for a group of switching elements of a 0-1 generator - Google Patents

Description

Incremental device for a group of switching elements of a »0« - »1« generator The invention relates to a device for advancing a group step by step switchable switching elements of a »0« - »1« generator, each of which is individually and with an irregular sequence of steps a number, preferably worth one Prime number, of active and passive switch positions corresponding to the value "one" or "zero" can take, the initial state of all switching elements only after execution a predetermined minimum number of switching operations is reached, each Element provided with a drive member and a position sensing member and a general drive mechanism with the drive member of the first switching element directly and with the drive elements of the following switching elements via coupling elements is coupled as a function of a control signal.

Such a device as part of a "0" - "1" generator which generates an irregular sequence of "ones" and "zeros" is already known from Swiss patent specification 362 555.

Such an irregular sequence of "ones" and "zeros" becomes Encryption of messages for the purpose of secrecy and for correlation measurements on networks, for solving equations with the help of electronic calculating machines and also used where digital noise voltages are desired.

In this known device, the general drive mechanism is coupled to the drive member of an element if there is at least this element in front of it an element is in an active switch position.

An element that is in the active switching state is shown below referred to as an "active element".

In the known device, there is always an element of the group. step forward if at least one - the preceding items active is, or, in other words, can only be a key element of a group exert an influence on the advancement of a following element, if none of the previous elements is active.

The last element only does not switch if none of the elements before this element iii d @ group is gktiv i $ t.

The influence that the state of an element in the group has on the Continuation of the following @ 4 elements can therefore be used by one or more of the previous active elements except. Effect can be set.

This disadvantage is eliminated by the present invention by the control signal for advancing an element through modulo-two addition the switch positions determined by the sensing elements on all of the preceding elements and the control signal of a signal source is received and that the element advances, if the coupling element belonging to this element has a control signal equal to "one" gets fed.

By advancing or standing still an element exclusively determined by the number of "singles" read on the preceding elements whether this number is even or odd, so is with the present one Invention of a read off "zero" is just as important as a read off "one", and the 'activity (advancing or standing still) of the element concerned is a change in the state of an arbitrary preceding element is always inverted.

It. is from the Swiss patent 305 146 a device got $ no, t, where 411e 2P. stands (both "ones" and "zeros") at least one Elements in the group have an influence on the progression of the elements in this group Exercise group. However, in this device, the element has an active state always the progress of a certain element (certain elements) and a Inactive state always the advancement of a certain other element (certain other elements).

In the case of the lying F-rhndurig, as in the case of the one already mentioned silent Pgtentsehriftb2 ASS described Vqrrirhtung, there is the possibility, to expand the elementary group to a large number of elements and thereby The minimum number of switching boys, which can be determined in advance, because of the elements all at the same time reach the starting 7, ugtarid again, the above-mentioned cycle, to enlarge, everything that is adjusted based on the examples described above a device according to the invention. sews discussed.

It is now already noted that this aberration of the number of elements is more useful in the present invention, because in this the changing deg Status of a retirement from active to ki # b # t immp # an I4ver4io4 of the V i or the ease of use of the following elements means the priorities for the invention can be carried out both electrically and mechanically.

The invention will be further discussed with reference to the drawing. In 1 shows a schematic embodiment of a device according to FIG Invention with modulo-two adders connected in series and by dieg @ lben controlled gate switches, Fig.2 a more elaborated electronic element the device of Fig. 1, Fig. 3 an embodiment in which the elements with are connected to the drive mechanism via a commutator in such a way that the Elements can only be incremented one after the other, and FIG. 4 void embodiment with two shafts and clutches in these shafts, which can be controlled via the selection elements in the vicinity of the elements.

In these figures, the same reference symbols denote the same or corresponding ones Elements.

Zn Fig. 1, the reference numerals 1, 2, 3 and 4 denote rocker elements, which can be incremented and which are a prime number vqn Can take positions, the positions being either zero or one. Devices 9, 10, 11 and 12 read or pick up the positions of the elements 1, 2, 3 and 4. A drive member 5 for the first element 1 is directly connected to the Drive mechanism 17 connected via a line 19.

The drive mechanism 17 is still directly connected to "AND" gates 38, 39 and 40 connected.

The gates 38, 39 and 40 are under the control of Modula-two adding units 41, 42 and 43. A control source 44 supplies the modulo-two adder 41 with a signal where the signal can be one or zero -and for example in the form of a fixed one Potential is fed.

The outputs of the "AND" gates 38, 39 and 40 are drive elements 6, 7 and 8 for elements 2, 3 and 4 connected.

While the device is in operation, the drive mechanism 17 sends out control pulses which are preferably evenly distributed over time, so that the first element 1 under the control of each. the pulses which are generated as a result of the direct drive, na honor step vorgerckt.

. ichtnpg 9 picks up the reads the selected The forward stable ring of the E-. ' Ienients 1 , with this position going one or zero, kgnn, PO feeds them, for example in the form of a pulse, into the modulo-two adder eire.

At the output deg Uodulo-Zwei -addierwerkes 41, which is connected to the Tprselralter 38 and your modulo = gwei-adder 42, either a one or a zero appears, depending on whether the device 9 is a one or a zero, if 8 ;, r, Auggg, ng of the control source 44 a one and that of the device 9 a zero appears at the output of the modulo-two adder 41, a one also appears at the output of the adder 41 when the source 44 is at a zero and the Vorriglittung 9 is set to a one.

In all other grooves one appears at the output of the adder dl Zero.

The "AND" gate 58 itself only opens when it is at the output of the adder a one appears, and the drive mechanism is then riding the drive link 6 of the element 2 connected. The further switching of the element 3 is again subject to the control of the adder 42 etc.

In the table I is shown for the device according to FIG. 1 that an element following the first element is then only gradually advanced become haFU if the number of elements in front of the named element, which is in the Are, either ultimately even or exclusively odd is.

It is assumed, however, that the source 44 supplies a lull to the adder 1 and that the device 10 supplies the adder 4 ?? Via a converter 45 and the device 11 controls the adder 43 via a converter 46. Such a converter changes a one to a zero, or vice versa. Table I. Elected Elected Signal Continuing Selected Continuing Continuing Continuing Continuing source schalturig position of the output circuit element (2) output circuit element (ä)? 1usang switchg (44) (1) Elements (1) (41) (2) with (42) (3) with (43) (4) Converter converter 0 x 1 1 x 0 1 x 0 1 x 0 x 1 1 x 0 1 x 1 0 0 x 1 1 x 1 0 - 0 0 - 0 x 1 1 x 1 0 - 1 1 x 0 X 0 0 - 0 0 - 0 0 0 x 0 0 - 0 0 - 1 1 x 0 x 0 0 - 1 1 x 0 1 x 0 x 0 0 - 1 1 x 1 0 - 0 = zero; 1 = one; x = increment; - = rest position. When the source 44 feeds a one into the adder 42, the element 2 switches to a selected position lull of the first element. This is shown in the following table II for a circuit without an inverter, Table II Signal Continued Selected Output Continued Selected Output Continued Selected Output Continued source schalturig schalturig circuit schalturig Position (1) (41) Position (2) (42) Position (3) (43) (44) (1) (2) (3) (4) ix 1 0 - 1 1 x 1 0 - 1 x 1 0 - 1 1 x 0 1 x 1 x 1 0 - 0 0 - 1 1 x 1 x 1 0 - 0 0. - 0 0 1 x 0 1 x 1 0 - 1 1 x 1 x 0 1 x 1 0 - 0 0 - 1 x 0 1 x 0 1 x 1 0 - 1 x 0 1 x 0 1 x 0 1 x It is clear that, if desired, the converters can also be arranged in other places in the circuit, for example in the lines which connect the ports to the modulo-two adders.

In Fig. 1, the element 2, which can be advanced, together with the gate 38 belonging to it from the drive mechanism 6, the reading or tapping device 10 and the modulo-two adder 42 formed soft members are framed in the figure by dashed lines.

The facility can now be framed from a number of such Switching elements be assembled; it can also at any time by such Switching element can be enlarged.

In Fig. 2 is an embodiment of such a framed switching element shown in a more elaborate form. The drive mechanism 17, the pulse generator, is connected to an "AND" gate 38, which is a rectifier 47, 48 and resistors 49, 50 included.

The gate 38 can either with the drive member 6 of the switching element 2 be connected directly or via a converter 55, which in turn simultaneously can be an amplifier.

The converter comprises a transistor 54 in a grounded emitter circuit. The collector is connected to a point of negative potential via a rectifier 51 connected. The base is with the common point of resistors 52 and 53 connected, which on the one hand to a point of positive potential and on the other hand are connected to the gate 38.

The input A for switching (see also Fig. 1) is with the gate 38 and further connected to the modulo-two adder 42, the resistors 56, 57, 59 and 60 and transistors 62 and 63.

The modulo-two adder is still connected to the device 10, which taps the selected position zero one of the switching element 2.

The modulo-two adder now has the effect that at B, i. H. at the exit the increment, a zero or a one appears, which is about an amplifier 64 can happen, which also serves as a converter; depending on the exit of the device 10 and that of the pulse generator 17 or at the output of a of these two a one appears.

In Fig. 3, a rotary changeover switch 70 is used by the drive mechanism 17 driven, which is directly connected to the drive member 5 of the element 1.

When the wiper 71 connects the link 5 to the source 44, it advances move item 1 one step forward.

The device 9 reads the position of the element 1 and controls at the same time the "AND" gate 65, which continues through the driven changeover switch 70 is controlled when the grinder 71 connects the source 44 to the gate 65.

If thereupon as a result, for example, an effective selection member Both the source 44 and the device 9 trigger ones, then feeds the "AND" gate 65 puts a one in the counter 69 for binary units.

In all other cases, the "AND" gate triggers a zero. The exit of the binary counter shows either a one or a zero at all times.

If a one appears at the input of the counter 69, while the output shows a zero, the zero at the output is then converted into a one.

If a zero then appears at the input, the one remains at the output obtain. On the other hand, when a one appears at the entrance, the one changes at the output back to zero, etc.

The output of the binary counter 69 is "AND" gates 38, 39 and 40 connected.

When the wiper 71 of the switch 70, the source 44 with the gate 38 connects and if both source 44 and binary counter 69 are ones trigger, element 2 advances one step.

The device 10 now again engages the position of the element 2, regardless of whether element 2 has advanced by one step or not.

Assuming that the "AND" gate 66 triggers a one, this is followed by a zero appear at the output of the binary counter 69, since the binary counter 69 showed a one. In this case, element 3 cannot advance because the "AND" gate 39 remains closed.

If the device 11 then reads a one again, it switches the binary counter 69 again from a zero to a one, and the element 4 can continue when the "AND" gate 40 is open.

In this way, in the circuit according to FIG. 3, the elements can only be incremented one at a time.

The circuit according to this embodiment has a special one Advantage if the chosen positions of the elements are not in a simple manner can be read either mechanically or electrically through the selection elements, as is the case, for example, when magnetic elements are used.

Whenever the wiper of the switch 17 with the last element of the group is connected, a new increment cycle may begin, whereby the elements are either advanced or discontinued in order will.

In Fig. 4, the reference numerals 1, 2, 3 and 4 designate ratchet wheels, which have subdivisions according to prime numbers. The ratchet wheels are on the circumference provided with edge pins 31, 32, which in a one position 31 or in a zero position 32 can be set in such a way that each wheel has the required irregular Has distribution of positions. The pins are in accordance with the Subdivision of each wheel brought into position.

The drive member 5 of the first wheel 1 is directly connected to the drive mechanism 17 coupled via the shaft 19.

The drive mechanism 17 is further via a shaft 18 with a Switch 13 connected. This switch divides the shaft 18 into two separate shafts 20 and 21.

The shafts 20 and 21 can be rectilinear or crosswise through the switch 14 with shafts 22 and 23 are connected.

The shafts 22 and 23 can in turn be straight or crosswise be connected to shafts 24 and 25 via a switch 15.

Each wheel 1, 2, 3 and 4 is provided with a drive member 5, 6, 7 and 8, respectively Mistake.

For each Rad_1, 2, 3 and 4 there is a device 9, 10, 11 and 12 respectively provided, which detects the position of the wheel.

When the wheel 1 is brought into the one position by a pin 31 the selector 9 controls the switch 13, so that the drive mechanism 17 is connected to the drive member 6 of the wheel 2 via the shafts 18, 21 and 33.

When the wheel 2 is brought into the zero position by a pin 32 the shafts 20 and 21 are activated by the switch controlled by the device 10 14 connected crosswise by shafts 22 and 23.

In this case, the drive member 7 is not associated with the drive mechanism 17 connected. If the position of the wheel 3 is also zero, the switch connects 15 the shafts 22, 23 crosswise through shafts 24, 25, so that the drive member 8 is now actually connected to the drive mechanism 17. While the establishment is in operation, the drive mechanism 17 preferably triggers control pulses, which are evenly distributed over time, so that as a result of the under the Control of each of the generated pulses taking place directly drive the first wheel 1 is advanced by one step; the following wheels 2, 3 and 4 are continued in this way, if the number of previous wheels showing the selected position is one, is either exclusively even or exclusively odd.

This is shown in Table III. Bike 2 shifts under the control of the selected position on bike 1. Element 3 only switches on if there is an even number of selected one positions, where zero-zero = an even number of selected one positions. The wheel 4 only switches when an uneven number of selected one-positions is selected. Table III Selected positions of the switching of the controlling ratchet gears ratchet gears 1 2 3 ............... 1 2 3 4 1 1 1 ............... xxxx 1 1 0 ............... 'xxx - 1 night 1 ............... xx - - 1 0 0 ............... xx - x 0 1 1 ............... x - - - 0 1 0 ............... x - - x 0 0 1 ............... x - xx 0 0 0 ............... x - x - 0 = selected zero position, 1 = selected one position, g = switching, - = rest position. Of course, it is also possible, for example, to only advance the level of wheel 2 when the zero positions are selected. It is also possible, for example, to advance the wheel 3 only with an odd number of selected one positions.

It will now be made clear that in the present invention in an extension of the rows by increasing the number of wheels or elements, how this is done according to the invention, more sense than in such in the known devices, since the influence of all wheels on the advancement of the following Wheels or elements is constant. Assume that in an arbitrary Double switch Wk of the device according to the invention, for example, Nt pulses of the drive mechanism via the shaft with an odd reference number and Nk pulses can be received over the shaft with an even reference number.

The sum Nk + Ni, = N, where N is the total number of pulses sent by the drive mechanism 17.

The Nk control pulses on the odd-numbered shaft then switch the associated wheel wk through n positions, where n is the prime number of the number of positions of the wheel wk.

The wheel wk has p pins, the selected position of which is "one".

A number of pulses are then fed into the shaft which is connected to the switch Wk and which has an odd reference number; the number of these impulses is: The number of pulses which are fed into the shaft adjoining the switch Wk, with the same having an even reference number, amounts to These formulas show, inter alia, that if a certain wheel, for example the K'th wheel, is shifted very rarely during a certain operating period of the drive mechanism 17, the (k + 1) 'th wheel still receives a number of control pulses which are considerable can be bigger.

If Nk = 0 (for example) then In this case, Nk is not equal to 0 "but equal to the number of pulses which are sent out during the operation of the device considered above.

It should be noted that n and p are not equal to one another.

If the permutation wheel in question has a number of active pins p = 1/2 (n - 1) is provided, that wheel is running at an average speed advanced, which is about half the speed of the first wheel.

In the device according to the invention, therefore, by the advance of the successive wheels does not cause progressive acceleration, which result in a very fast movement of the wheels with high serial numbers would. In this case, these wheels would seldom be in the rest position during a period be, a fact that they recognize by the symbols generated by the device would let.

In relation to very short periods, a wheel can travel at one speed run which of those of the first wheel is the same, odef in the Be at rest.

In the embodiments of the Erfihdüiig we speak of elements; which either switch on or not switch on. With these bodies is it is possible to do this in a well-known manner, e.g. B. in one or two steps to ttanspönieren what can be achieved, for example, that all elements perform a specially specified step between each pair of possible steps.

The facilities indicated in doll figures can be matched with an eiiifa'chen Reading or tapping device, which only has a reading or tapping point on each of the wheels (elements).

The permanently foitschaltende element 1 is preferably not with a Reading point equipped. As a result, these devices are preferred six elements for the excitation of symbol rows with five information elements used.

Claims (1)

PATENT CLAIMS: 1. Device for Förtschälten a group step-by-step switchable switching elements of a »0« - »1« generator, each individually and with an irregular sequence of steps Number, preferably equal to a prime number, more active and passive - the value "one" or »Zero« corresponding - switch positions on can take; where the starting point is all Licher switching elements only after execution a predetermined minimum number of Switching operations is achieved every element with a drive element and an actuator is provided with a feeler element and a general drive mechanism with the drive link of the first switching element directly and with the drive elements of the following switching elements via coupling links depending on one Steüersignal.köppelt, thereby marked net; _that the control signal -for the update of an element (e.g. 3) through the.MLodülo-two- Addition of the part (1 and 2) through -the feeler elements (9 and 10) determined switch positions (vEihs «;» Eiiisä) and the Steüersigiials (»1 @ Tü'lh (or @sEins«) a signal source (44) is obtained and that the Element (3) förtschältet, if 'that to this Element {3) belonging Köppet member. (39) a Stenetsipal 'rEins' immediately. 2. Device üä # that is, claim 1, dädnrch kenrizeichnet-, däÜ jeäeiii S'ehalteleiüent (1-, 2; 3, 4) a Möd'uio-z @ vei @ A`dderwerk (41-, 42, 43) is given, on the one hand by means of a Control signal '(44) and on the other hand by means of the this switching element {1 ;, 2, @ 3; 4) associated 'Position sensing element (9, 1'ß, 1.1., 12) controllable; is; ün'd däß d'äs Äntrielis link (6, 7; 8) each the holding element (2, 3, 4) following the first switching element (1) is connected to the output of the associated coupling element (38, 39, 40), which is an "AND" gate circuit; the iri dependence on the state at the output of the preceding modulo-two adder r41, 42; 43) connects the general drive mechanism (17) to the drive member (6, 7; 8) (Big. 1). 3. Apparatus according to claim 1, characterized in that the drive mechanism (17) comprises a rotating switch (70), with the outputs of which the drive member (5) of the first switching element (1) and the other drive members (6, 7,. 8 ) of the following switching elements. (2, 3, 4) are each connected via an associated "UiND" -Toi circuit (38, 39, 40) as a coupling member, so that the coupling members (38, 39, 40) on the one hand by a drive mechanism (17) and on the other hand through a binary counter (69) connected to the inputs of these coupling elements (38; 39, 40) can be controlled and that each switching element (1, 2, 3, 4) has an additional "AND" gate circuit (65, 66, 67, 68) which is controllable on the one hand by the position guide member (9, 10, 11, 12) belonging to this switching element (1; 2; 3, 4) and on the other hand is connected to the drive mechanism (17) via the switch (70) and at the same time. can be controlled by this; and that the outputs of the additional "AND" gate switches (65, -66, 67, 68) are pre-connected to the input of the binary counter @ 69) in such a way that the switch (70) controls the drive elements ( 5 ,, 6, 7, 8) possibly via a »U1 \ TD« gate (38, 39, 40) and the additional »UIVD« gates (65, 66, 67, 68) of all elements (1 ) 2, 3; 4) can control cyclically one after the other (Fig. 3). 4. Apparatus according to claim 1, characterized in that the coupling element (13) which switches as a function of the determined position of the first element (1) is a switch (13) which by means of a drive path (18) with. because the drive mechanism (17) is connected and this drive path (18) connects to one of two drive paths (20, 21), the following coupling links (14, 15, 16) double switches (4, 15, 1.6) in the two drive paths (20, 21; 22, 23; 24, 25), which 'tie this either gei-ä, de through = or crosswise elnrclivefbinding körineii and -wherein the driving element (2-. B:' 6) of your Eleirients (z B. 2) inside the outgoing drive path (21), a vöii-Sfrellüesfüesfühlglied (9) of the `` existing tl'eiiient {1) controlled switch (13), is possible (Fig . 4). III-regarding delays in printing: Schweizerische gatents'chri`ft Nir. 3'62 g55.