DE1012653B - Waiting device in telecommunication systems, in particular telephone switching systems, equipped with electronic means - Google Patents

Description

The in telecommunications, in particular telephone switching systems The basic function that occurs is the optional interconnection of facilities. Everyone Interconnection is preceded by a test process that determines whether the new one to be assigned Facility is still available or already occupied. If a very specific facility is occupied If the test result is negative, i.e. if this facility is occupied, there are basically two Options. In one case, the possibility of a further connection establishment is finally prevented and possibly the already established part of the The connection is cleared down again, which means that this attempt to seize the system is lost. In the other case enable additional facilities to record the occupancy attempt until the required facility becomes free. Here, instead of the loss, there is a waiting time that characterizes the occupancy attempt Incentive with the help of the additional facilities, which consequently have storage properties must be outlasted. Depending on the average occupancy time of the facility to be occupied and the frequency of occupancy attempts, it is necessary to determine for how many incentives such a waiting facility is to be created or, in other words, how many memories are to be provided are. Incentives that can no longer be saved also lead to losses.

The storage units can be arranged in such a way that they are connected in parallel with one another, parallel to the direct connection option to the facility to be occupied. Such an arrangement conditionally on the input side and often also on the output side switchover of the memory and leads not infrequently to complex and complicated solutions. A relay-controlled one that works according to this principle Memory selectors and their associated tax rate and a memory allocator equipped Waiting facility is already known. A disadvantage of this, however, is the large one, due to the indirect one Setting the memory selector and the numerous control processes required effort, whereby the sequence of the control processes also takes up a considerable amount of time and the scope of application constricts this waiting facility.

Another possibility of interconnection is to connect the memories with each other and with the to be occupied device in series, so that each connection to this run over the memory got to. In this case, clear arrangements result with very little effort, but can the occupancy time increases according to the throughput time through the storage tank. Through the application Waiting facility in with electronic

Means equipped telecommunication,
in particular telephone exchanges

Applicant:

Siemens & Halske Aktiengesellschaft,
Berlin and Munich,

Munich 2, Wittelsbacherplatz 2

Dr.-Ing. Werner Krägeloh, Munich,
has been named as the inventor

electronic means in the memories, the most important property of which is their almost inertia-free response is, however, this disadvantage of the series connection, which in itself is usually negligible can be almost completely eliminated. Further possibilities result from the combination of Series and parallel connections.

The waiting device according to the invention is a series connection of memories, which are equipped with electronic means. It is characterized by the fact that before each by activation an electronic switching element of an evaluation stage device to be assigned a series circuit is arranged by equipped with electronic switching elements storage stages and that Each of these switching elements assumes the activated state when it is connected in series previous one is in this state and thereby the return of the previous one to the non-activated one State causes, and that the activation of the associated device triggering incentive the associated switching element of the first memory stage is activated immediately.

Exemplary embodiments of such waiting devices are shown in the figures; Possible applications and other modifications are

709 58W92

Stimulus-forming impulse or voltage jump · is triggered.

These pulses should, for example, at the input α the waiting facility. This is limited to those equipped with the tubes TIa, T2a and T3 Part of the arrangement according to FIG. 1.

In the idle state, all tubes are de-energized. An ignition of the tube T2 cannot occur, although the voltage of the bias voltage source + Uv2

binding with the respective embodiments mentioned. In detail shows'

Fig. 1 shows a waiting device which includes input memory and evaluation stage and for recording of stimuli, which are represented by a single impulse or voltage jump is,

2 shows a circuit modification of this waiting device,

3 shows a part of a waiting device for increasing its ignition voltage considerably, since the ignition of stimuli, which are represented by two pulses or electrode voltage by voltage division over the voltage jumps, sufficiently dissipates resistors R 6a, RZa and R2a.

Fig. 4 is a waiting device with a buffer lowers. The positive cathode bias voltage occurring at the cathode resistor R 2 α remains, since the

5 shows a combination of a waiting device with a resistance value of this resistance very small, a relay coordinate switch. compared to that of the resistors R 6α and R5a ,

In all of the figures, the representation is based on the dimension of the tube Tla required for understanding the processes without any appreciable influence on the ignition conditions. The associated evaluation organ, so limited; as electronic switching elements are in the relay A, according to the presupposed FIGS. 1 to 4 gas discharge tubes with unheated free state 20 is not energized. An incident document air cathode, in Fig. 5 partially also those with a heated attempt, can therefore be operated without waiting. Cathode chosen. If there is a first attempt to occupy

Fig. 1 shows a waiting device, which consists of the impulse at the input α , so exceeds the chip composition lying on the ignition electrode of the tube TIa in an input memory and an evaluation stage and the possibility of waiting for an incentive, which now results from the permanently supplied Advance offers. The tubes Tl, voltage + t / z / l and the pulse, composed of the minimum amplitude required for their anodes via the common resistor R1 ignition, serve as input storage, which ignites at the positive pole + Ub of the operating voltage tube TIa. Are defined in this case connected at their Kathoquelle, while their cathodes holds over the resistor R 2 α occurring positive voltage erindividuelle cathode resistors R2 with parallel-30 of the switched-on of the resistors R 6 a, R 5a and i? 2a capacitors C1 existing at the negative pole Voltage divider a counter voltage, so are .. The mutually equivalent inputs α that the evaluation tube T2a ignites. By now in b. .. of the waiting device are over the direct current its flowing current is the evaluation relay A blocking capacitors C 2 and the usual protective energizes and thus the resistance R 3 initiating the whole process to the ignition electrodes of the tubes T1 35 incentive introduced after the waiting device, which is fed to the downward direction via a pulse load for evaluation. At the same time, resistors R 4 from the common precharge will be positively biased when the tube T2a is ignited from which the cathode voltage source + UvI is sufficiently biased to ignite the resistor R7. A pulse is generated by the capacitor C 3, through which the cathodes of the tubes T 1 are ignited under the intermediate switch 40, the extinguishing tube T 3. Since the cathode of the resistors R 5, the ignition electrodes of the capacitor C 4 are initially still uncharged, their evaluation tubes T2 anode potential initially falls to the value of the burn, which is switched on via the resistors R 6 due to the voltage and thus at the same time also the anode potential. Bias source Uv 2 are biased. The voltage potential of the still burning tube TIa, whose channeling of this source in itself is higher than the 45 method capacitor CIa, however, is already positive for the ignition voltage of a tube T2. The cathodes of this load is up. With tube TIa the voltage between the cathode and anode falls below the minimum value required to maintain the gas discharge, whereby the gas discharge is extinguished, there is a relay A, 50 serving as an evaluation element and the capacitor C1 α discharges. At the same time B. . ., via which the tubes are interposed, capacitor C 4 charges, with which a corresponding increase in the anode potential of the tubes T 3 and TIa is connected, whereby the anode potential is the cathodes of the tubes T2 for ignition on the ignition electrode side of the tube T1 via resistor R9 the 55 exceeds the required minimum value again. The ignition electrode of the extinguishing tube T3 is thus coupled by means of the condenser tube TIa to receive the next pulse C 3 and positively provided via resistor R 10.

tense. The anode of the tube T 3 is connected to the anodes of the storage tubes Tl after the evaluation of this occupancy contact 12 , such as the connected device while the cathode is connected to the parallel connection of 60, the two still burning tubes T2 α and T3 resistance R 11 and capacitor C 4 clears at the negative. For the sake of simplicity, the operating voltage source is located in the pole. Fig. 1 in the operating voltage supplies of this

On the basis of a simple operating case, the contacts II and 12 are to be inserted into both tubes; It 65 and by briefly opening the deletion, it is assumed that the attempts to occupy them and subsequent restoration of these two are represented by impulses that can be caused by tubes one after the other.

occur on the same line. Cases of this kind Instead of these contacts can be dependent

arise, for example, in the operation of call from the peculiarity of the subsequent device Searchers in which the search process is carried out by one of the other 70 causing the desired deletion

Tubes are connected to the negative pole of the operating voltage source Ub via the common resistor R 7 . In the anode lead of each of these tubes

, g

of the common current-limiting resistor R 8 and the normally closed contact / 1 are connected to the positive pole + Ub of the operating voltage source. To the

5 6

such as pulse transformers and similar provided continued to an occupancy. Now occurs before done

will. In the same way, the evaluation of this stimulus during firing can be determined by the

the tube T2a flowing current in place of the relay direction a second stimulus at the input b on, so

can also be evaluated by other means; likewise, tubes T2a and Γ3 are burning at this point in time.

it is possible to the following device a 5 After the anode potential of the tubes Tl, the

When the tube is burning, the voltage occurring during the ignition of the tube T 3 due to its uncharged

respectively. The relays and capacitors shown in the figures briefly at a very low level

For reasons of simpler display, contacts were reduced by charging this con-

elected. capacitors assumed a relatively high value again.

As can be seen from the preceding explanation, if io men has, the tube Tl b ignites. Since their cathodes when a stimulus occurs, which is initially still uncharged to a capacitor CIb , this can lead to occupancy that goes through with the tube TIa-be during this ignition in the same way as for the first stage of the waiting device. Tube TIa already explained, tube Γ3 deleted without saving. When the tube TIb is ignited, the evaluation of the first stimulus, i.e. when the second stimulus is burning, is carried out, but tubes Tlα and T3, a further stimulus may occur, which is not yet the evaluation of the first stimulus ends in the form of a positive pulse at the input, the tube T2b not yet ignited gang α occurs, so tube Πα ignites again and become. This ignition, which leads to a double occupancy, continues to burn, since it would result from recording, is prevented by the common cathode of the first pulse following the ignition resistance R1 of the tubes Γ2. Due to the deletion process cannot take place. In this way, this second stimulus that occurs when a tube T 2 is burned is stored. Now close the contacts voltage drop, the cathodes of all / 1 and / 2 after short-term, positively biased so strong after the full other tubes T2 that early evaluation of the first stimulus completion Öff- occurring during firing of a tube T 1 Ernung again , the tube T2 α will ignite again immediately, 25 increase the ignition electrode voltage of the associated one, since its ignition electrode is no longer sufficient to ignite it due to the burning tube tube T2. For TIa is sufficiently positively biased. Tube T3 runs the second stimulus, so a waiting period is initially deleted until its ignition elapsed time.

trode by the ignition of the tube T2a, the pulse required for ignition after the evaluation of the first stimulus is supplied. After opening 30 by the occupied device, from this successful ignition it extinguishes, as already described, controls the contacts II and 12, whereby the tube again the tube TIa and remains burning until T2a is extinguished. The positive cathode bias of the tube T2b thus disappears after the second stimulus has been evaluated , with which it ignites and / 1 and / 2o-extinguished together in the tube T2a by means of the contacts as described earlier for tube T2a. ³⁵ ^ ^no relay 5 energized. The positive one occurs again

In the following, the case will now be considered where the voltage drop across the resistor R 7 causes the stimulus to consist of a pulse that ignites the tube T 3, which in turn clears the tube on one of several lines TIb. This state is now made until it can on which line it occurs, it provides after evaluation of this second stimulus again a 'additional information. An characterized Betriebsart'geeignete the arrangement of these contacts 40/1 and 12 open for a short time, for example, can then Delete tubes T2 & and T3 and find the waiting device use when they lead back to the waiting device in the idle state. Before evaluation of the following device can be occupied by several devices, followed by evaluation of the gene occurring at input b and this subsequent stimulus can already be transmitted again at input α to device, of which 45 occurring incentives are stored; because the bren facility is just being occupied. Nende tube T2b can just as well bias the cathode of tube T2 α positively in the case of the waiting device downstream, if a double system part is also in this case separate devices whose occupancy is impossible.

Incentives can come up independently of one another, however, the above description is limited to in order to prevent simultaneous work, do not 50 clearly timed out the basic functional sequence may be occupied. Make one of these claims, in cases in which only one incentive is appropriate Waiting facility in the future must therefore fall, which could not be served immediately. The number Store pulses from different lines and the incidental incentives never exceeded that can evaluate, for which purpose each line has a storage facility for the waiting device. Will this own storage level and own evaluation level 55 exceeded, so is assigned. Mutual coupling will lead to losses.

while ensuring that double occupancy or The arrangement shown in Fig. 1 works when

Incorrect assignment is prevented. Occurrence of redundant incentives as in the following

The arrangement shown in Fig. 1, of which purifies in. If the waiting facility only contains - like a

Above description only a part is considered 60 initially described, the tubes Tla, T2a and T3, see above

is intended for the inclusion of incentives, burns after-incidence of a second incentive during

which occur on two different lines the evaluation of the first already the tube T la.

can. The connected to the individual lines can be a third incentive that now occurs

Its members of the waiting device are under the tube no longer ignite and is therefore lost,

dimensioned equally to each other and accordingly 65 As a criterion for the occurrence of losses

equivalent to each other. Attention is drawn to the fact that the voltage present at resistor R1

that this arrangement is used with regard to the number of waste incurred or as a criterion for

closed lines can be expanded as required. storage of the TIa when igniting the tube

To explain the function, it is assumed that the voltage drop across this resistor Rl

that the first stimulus occurred at input α and is therefore used. In this arrangement with

an input therefore loses the incentives that occur after the storage capacity has been used.

The mode of operation of the waiting device according to FIG. 1 differs from this when it has several inputs. If, for example, the tube TIa burns as a result of the storage of an stimulus which cannot be evaluated because of a still burning tube T 2 (e.g. tube T 2 c) , and if another stimulus occurs on line b , tube TIb ignites and thereby extinguishes the tube TIa. In this case, the stimulus that occurs within the waiting time of the previous stimulus is stored, so that the one already stored becomes a loss. In view of the very small probability of this occurrence, a number of application cases are conceivable in which such a behavior of the waiting device can be accepted without further ado. The criterion for loss incurred the after storing momentarily occurring, very strong drop can be evaluated of the anode potential of the tubes T 1 during ignition of a tube T1, featuring the deletion of the existing storage, when between deleting a burning tube T 1 by re-storage and deletion is differentiated because the evaluation has started.

FIG. 2 shows a modification in the group of storing tubes T1 with an otherwise unchanged arrangement according to FIG. 1, by means of which their property that a stored stimulus is lost by a subsequent one is avoided. For this purpose, the tubes T 1 equipped with individual parallel connections of resistor R 2 and capacitor C 1 are additionally provided with a common cathode resistor R12. The dimensioning of the resistors RI ₁ R2 and i? 12 is chosen so that the voltage drop occurring at the resistor i? 12 when a tube Tl burns is sufficiently large to shift the cathode potential of the remaining tubes T 1 towards positive values so that these remaining tubes T1 can no longer be ignited. This ensures that a stored incentive remains unaffected by subsequent incentives and these become losses. The criteria mentioned in the explanation of the single-part arrangement according to FIG. 1 can be used as criteria for fully utilized storage capacity.

The above-mentioned applications of the arrangement according to FIGS. 1 and 2 have in common that a single impulse corresponds to a stimulus, which occurs on a single line or a specific line. In various cases, however, there is a desire to be able to present an incentive by means of two impulses occurring simultaneously on different lines. This is the case, for example, when there is a large number of devices, each of which can provide an incentive in the form of an impulse, and the information from which device the incentive originates is also important for the evaluation. If a waiting device according to FIG. 1 is used, as many links must be provided in this as there are devices connected on the input side. In order to reduce the effort, the total number of facilities can be divided into groups. Each individual institution is then determined by two criteria, one of which indicates the group in which this institution is located, and the second, which position the institution has within this group. The arrangements used for this purpose, which are generally collective circuits with decoupling directional conductors, can be assumed to be known. According to their basic form, which can be traced back to a matrix, they allow a device to be identified by an x and a ^ coordinate. For mn connected devices, with such group or head data division, memories and evaluation stages of a waiting device with only m +% elements each are required

ίο borrowed. Their total number is in a group of m facilities, z. B. assigned to the Λτ-coordinate, and divided into a group of η facilities, which then belong to the y-coordinate. Both groups must enable storage and evaluation independently of one another, while the restoration can be carried out jointly in both groups.

Fig. 3 shows the essential parts of a waiting device for this operating case. It comprises two groups of input memories and evaluation stages , of which the first element equipped with the tubes Tlax and T2ax or Tlay and T2ay is shown and which, as shown in FIG. 1, are connected. Both groups have the common extinguishing tube T3, which is led on the anode side with the interposition of the extinguishing contact / 1 by means of the directional conductors GIx and G 1 y to the anode resistors RIx and RIy of the two groups of storage tubes Tlx and TIy . The separate anode resistors of both groups make it possible to ignite one tube of the groups TIx and Tly at the same time without mutual interference, while the original functions are maintained within each group. When igniting , the tube TZ can simultaneously extinguish the two burning tubes T1 via the two directional guides GIj: and GIy, one of which is in the group of tubes TIx and the other in the group TIy , without any coupling and thus mutual interference of the two groups occurs. The ignition of the tube T 3 takes place after complete re-storage of the two groups of storage tubes Tl in the two groups of Auswerteröhren T 2. To even with different starting times individual gas discharge tubes in the groups T2X and T 2 y the two burning storage tubes only to clear, When the storage is completely completed, the ignition of the tube Γ3 is made dependent on the ignition of a tube T2x and T2y by a coincidence circuit consisting of resistor R 13 and the two directional conductors G 2 $ and G2y. When all the tubes T 2 have been extinguished, the connection point of the resistor i? 13 with the two directional conductors G2 is at low potential, since the positive bias voltage + Uv 3 applied to this point through resistor R 13, the one compared to the resistance value of the resistors R 7 has a large resistance value, and these two resistors experience a voltage division. The potential of the connection point does not experience any significant change when a tube T2 is ignited, since only one of the two directional conductors is then blocked, while the other remains permeable. Only when both directional conductors are blocked, i.e. when one tube in each group is ignited, does a voltage jump corresponding to the applied bias voltage + UvZ occur at this connection point. As already described, this becomes dureh; Capacitor C 3 generates the pulse causing the ignition of the tube T 3. The extinguishing of the two burning tubes T 2 and the tube Γ 3 can, as-

caused by the contacts II and / 2. Instead of the arrangement according to FIG. 1 on which FIG. C is based, the arrangement according to FIG. 2 can easily be used.

Deviating from the embodiment shown in Fig. 3 arrangement, the trigger electrode of the tube T 3 pre-connected coincidence circuit are constructed such that the cathodes of the tubes T2x with which the tubes T2y be connected via a series circuit of resistance and isolator and to the ignition electrode of the tube T 3 leading capacitor C 3 is led to the junction of these two elements.

Evaluation tubes T 2 can ignite, but the excitation of the second magnet to be excited is postponed for the required time. The means required for this depend on the type of switch being used (e.g. occupied contact in the rows or columns) and can be assumed to be known. Separate waiting facilities can also be used for the row and column magnets! according to Fig. 1 or 2 can be used.

The arrangements of FIG. 1 explained so far until. 3 each include an input memory and a subsequent evaluation stage; can be designed in multiple sections. Accordingly, these arrangements offer waiting options.

In connection with the waiting facility after

Fig. 3 is a special application 15 speed for an incentive; further incentives thus lead to the various waiting facilities being pointed out. In losses. In most cases, the memory of switching technology is found in indirect gesteuer- capacity of, an incentive sufficient because the ten systems in the individual W ^T ahlstufen and probability of occurrence of. Loss connection purposes often electromechanical switches can be made very small. In certain uses, the crosspoints of which are 20 cases in terms of coordinates, however, an extended storage capacity can also be arranged and thus divided into rows and columns.

are. A connection is switched through via such a coordinate switch Exciting the two magnets that hold the two coordinates, namely the row and the column, of the desired Crosspoint are assigned.

It depends on the type of crossbar used whether these two magnets are used at the same time or in a certain order one after the other

4 shows a waiting device with a storage capacity of two stimuli, and for this purpose uses a buffer inserted between the input memory and the evaluation stage. The input memory with the tubes Tl of this extended waiting device corresponds to that shown in FIG. 1, in the modification according to FIG. 2, while the evaluation stage with the tubes T 2 of the

need to be excited. After through-connection 30, FIG. 1 is the same. As in the arrangements already described, the excitation circuits are then separated into the tubes Tl , the extinguishing tube T 3 is closed and a holding circuit is closed. To double-ordered that to. whose; To avoid common anode recoilings , only one row Rl with the interposition of the contact II and one column magnet may be excited; only after switching. The intermediate storage with the tubes of the holding circuit of a coupling to be switched 35 T 4 corresponds in its structure to the input point closed and thus its excitation current storage and has its own extinguishing tube T 5, the circles are separated, the magnets can be used for in the same way as the tube T3 a second connection required coupling point clock / 3 at the anode resistor R 14 which you are tensile excited. arranged tubes T ¹ 4 is connected. Your ignition electrode As from the functional sequence of such a 40 is on capacitor C 3, the. Cathode resistance coordinate switch emerges, can be coupled to it in certain R7 of the evaluation stage, while in certain cases the ignition electrode according to the invention is advantageously assigned to the tube T 3 via the capacitor C 5 waiting device. As a result of which the intermediate storage device is switched to the common cathode resistor R 15 of the storage property very soon. Tube T 3 is enabled according to the device controlling the through-connection when igniting a tube T 4, since on the one hand it is only used to store and extinguish the respectively burning tube Tl, while the two pulses marking the desired crosspoint are timed and especially on the other hand during the connection of a
Crosspoint already the connection of a 5 °
can store further crosspoint causing pulses, provided that the storage capacity of the
Waiting facility still allowed.

With crossbar switches whose row and column magnets can be excited at the same time or 55 ignites. This then ignites the evaluation tube T 2 a , it is expedient to use the waiting device after and at the same time the extinguishing tube T3, which is still to be used in FIG. 3; the in this figure with Ax and burning tube TIa extinguishes and thus the switching elements designated Ay in this case provide input memory again. By igniting the first row and the first column of the tube T2α on the one hand the relay ^! energized magnet of the crossbar. The contacts 60 and on the other hand the extinguishing tube T 5 ignited, the

Tube T 5 is ignited in the same way by a tube T 2 and the respectively burning tube ΤΊ extinguishes.

Due to this arrangement, the transmission of a takes place when deleted. Tubes T 2 occurring, for example, at the input α. Stimulus to the evaluation stage SO 'from the fact that the stimulus first ignites the tube Tl α , which then the tube Γ4α

II and 12 close each time after switching, so z. B. when closing the holding circuit of the coupling point that has just been switched through.

With KooTdinata switches whose: line and - Column magnetism in a certain order one after the other must be excited, the arrangement of Fig. 3 can also be used, provided by Contacts ensure that in the case of pending markings, the brief opening of the

Provides intermediate storage again. After the evaluation has been completed, briefly opening the contacts 11, 12 and / 3 extinguishes the two extinguishing tubes and the burning evaluation tube.

If a tube T2 is already burning at the time of the arrival of an stimulus, this stimulus is only transmitted as far as the corresponding tube T 4 and is thus held in the buffer, during a third stimulus following this second stimulus

Contact part and / 2 to ignite the two required 70 only one tube of the input memory immediately

709 589/92

11 12

like. The following incentives will lead to losses. Is the required operating voltage in usual. Limits
Storage capacity used or, to keep up with others, Stromtcre because of their comparative
Values, one tube burns each Π and T4 and low voltage requirements the cold cathode tubes / then extinguishes after the evaluation of the first one is preferable. Im deleted. In the state of the i stimuli the tube T 2, which is just burning, ignites the 5 anodes of the tubes, T 2 χ and. the cathodes of the already burning tube T4 and the tubes T2y assigned to it at no defined potential; around the: tube T 2 and is itself deleted via tube T 5. The resulting requirement of relatively high ignition, so that the longest waiting stimulus of the voltages for the tubes T2y is to be avoided, evaluation is supplied and the intermediate storage for the anodes of the tubes T2jit via individual resumption of the still waiting third stimulus would be free io R 16 the positive pole + Ub of the operational 'made. This is switched in the same way from the on-voltage source. In the same way could ^;

output memory transmitted, whereby this again to the cathodes of the tubes T2y via such individual:;,;,

Admission: a new incentive is released. Waiting rush resistors connected to their negative pole

Incentives move accordingly to the extent to which they are, but they are here with consideration for the

the evaluation takes place, from stage to stage in the 15 function, the waiting device via the decoupling?

Waiting device · before until it evaluates itself Richtleiter G 4 to the common resistance RIy

will. guided. Due to these additional resistances, S

In the same way, this extension of each tube can be connected to the operating voltage source: '"

Storage capacity also according to the arrangement and can be ignited independently of others.

Fig. 3 can be achieved, 20 The flow of a fault current through the relay dttrch ί

In one of the preceding paragraphs the connection of these resistors was indicated by the

In certain cases, advantageous interconnection of the blocking effect of Richtleiier G 3 is prevented. "%

of waiting equipment and. Coordinate switch towards - The two, each for energizing a relay -

been directed; while doing this, coordinate switches were burning tubes. T2 can be combined by ν

considered, which open a magnet 25 of the contact 12 per row and per column are deleted. The relays ;;.

own. Another type of coordinates are with their own. Holding windings equipped, so ? <

circuit is different from each crosspoint that the deletion of the tubes T2 immediately after 4

associated with a magnet; a cross switch close, the holding circuit can be made *

this type is therefore divided into coordinate data. : ·,

arranged relay. Characteristic for the operation of the 30 When equipping the described RelaAskoor- ■

like relay arrangements is that a crosspoint data switch with a waiting device can i ¹ ' ¹ ·

no longer through, the closing of two circuits, according to FIG. 5, the evaluation tubes of one of the already "

namely the two waiting devices for exciting the line and the described waiting devices at the same time as ΐ

Column magnets serving, but through an entrance tube, rows and columns represent the Reäais- L

A single coordinate switch containing only the desired relay can be used. For your ;""

Circuit is established. Relay arrangements of this function result from the arrangement

Type usually have a fundamental difference in the rows and columns according to FIG. 3. While '%

input contacts, through the closure of which the each tube T2 in the arrangement according to FIG. 3 closes |

desired circuit and thus the desired together with your relay AB ... for itself parallel '*'

Crosspoint is established. When interconnected 40 to the operating voltage source, form in the 'An- ■;'

of such Reiaiskoordinatenschalters with an order according to Fig. 5, two tubes in the overall T2 '

Waiting device can use these contacts for example - ignited state together with their common '

by the evaluation relays AA, AB in the main circuit. . . a series connection. Because of '"!

to roar. Γ 2 lying relays A ₁ B ... the arrangement of the aforementioned resistors RIy and i? 16 I ₁ ,

be actuated according to Fig. 3 ;. It can be more advantageous, however, that they are parked at the time of their ignition.

but a modification of the arrangement according to FIG. 3 allel to the voltage source; this allows the arrangement "{■ -

Find use. tion of the waiting device according to Fig. 3 in the essential *

Fig. 5 shows the combination of a modified loan can be adopted unchanged. As an- \

The waiting device according to FIG. 3 with a relay output memory is used by the two with the KÖt- ' ^!

coordinate switch, with 50 cathode tubes TIx and TIv equipped tubes as gas discharge tubes: ·

In some cases, groups with a heated cathode that share the same extinguishing tube T 3: f-

be turned. Like the evaluation tubes T2, this is in the idle state,>:

First of all, the structure of the relay bias voltage - CV4, which is contained in FIG. 5 and is controlled by a permanently attached negative ignition electrode by means of gas discharge tubes, is to be blocked. After the ignition coordinate switch has been carried out, these are briefly explained. Their deletion is indicated on the 55 by the contact 12 f; Crosspoints are the relays AA ... BB at the same time actuated contact Il causes
with. the. associated decoupling directional conductors G 3 and using the example of two in quick succession
are to be marked by corresponding connections to lines of crosspoints
and columns combined. The line inputs explain the function of the entire arrangement
are led to the cathodes of the StronitoreT2_y, 60 if they deviate from one of the already described anode side on the positive, pole + Ub of the operational level arrangements. ■■■
Voltage source. The column inputs lead, first relay AA should be energized. To do this, turn
to the anodes, represent current gates T 2 χ, whose. Cathodes through the inputs ax and αν supplied pulses
(with the interposition of the here not yet inter- the tubes T lax and Tlay ignited, their positive
Eating resistance R 7x) to the negative 05 cathode voltage the negative ignition electrode pole · of the operating voltage source are connected. A voltage of the downstream tubes T2ckx · | Relay is then energized when, its associated and T2av overcomes and this ignites. The % ή & ί row and column tubes burn at the same time, because there are coupling directional conductors G4 that defy'Λαέ | jt in series with. these two tubes. On Grand common resistance R7y of the tubes T2y'eili "|| this series connection are at this point ^ around the 70 unique circuit is formed. By 'di ¥ ^: ä | i |

the positive voltages occurring at the resistors R7 χ and RIy , the directional conductors G 2 χ and G 2 ν are blocked, whereby the bias voltage + Uv 3 supplied to the coincidence circuit from these two directional conductors and resistor R 13 ignites the tubes T 3 and via the directional conductors GIx and GIy clears the tubes T lax and Tlay . By appropriate dimensioning of the resistors Rl and Rll in consideration of the running voltage of the tube T 3 is achieved thereby that 3 more per a tube and TIx Tiy can be ignited even with a burning tube T. If now, before the closing of the holding circuit of the relay AA, which is now excited by the burning of the tubes Tlax and Tlay, another relay is marked for excitation, the tubes TIx and TIy defining this desired relay are ignited by corresponding pulses and this second marking is saved. However, it is not yet possible to ignite the corresponding tubes T2x and T2y , since the voltage drops at the resistors R7x and R7y caused by the burning tubes Tlax and T2ay prevent the ignition of further tubes T 2 through cathode bias until the holding circuit of relay AA has been switched on The burning tubes T2ax and T2ay are extinguished via the contacts / 1 and 12, and thus the storage is effected.

The variety of construction possibilities of the waiting device will be illustrated in the following with the aid of a further application example. It was mentioned earlier that in the case of a large number of devices, each of which can provide an incentive in the form of an impulse, to reduce the effort a division into groups can be made. In the arrangement explained in this context, the occupancy of a device was made by the simultaneous response of two relays. If, in deviation from this, the occupancy of a facility is to be effected by the response of a single relay, then the arrangement can be made for this purpose according to. Fig. 5 can be used, in which the relays are then no longer used to switch through lines and are accordingly to be switched differently on the contact side. This arrangement now allows nm devices to be occupied by individual relays, the entire waiting device comprising only n + m elements.

FIGS. 1 to 5 show exemplary embodiments which define the essence of the waiting device according to the invention let it become clear; however, they are not limited to these arrangements. A number of conversion options result from which elements are used as electronic switching elements be used. Instead of the cold cathode tube shown almost throughout !! can Electricity gates, i.e. gas discharge tubes with a heated cathode, can be used just as well. The necessary Changes that mainly result from the low control voltage requirement of the power gates, move within the scope of the usual circuit technology.

In addition, the basic idea explained on the basis of the exemplary embodiments can also be used in conjunction with transistor circuits. Find application. In order to obtain the required storage properties, these must be designed as bistable tilting stages, in which tilting into the working position corresponds to ignition and tilting back to extinguishing a gas discharge tube. The transistor circuit used in place of the erase tube is an exception, as it has memory properties. don't require anyway. It is also possible to omit this transistor circuit and to achieve by appropriate direct coupling between the transistor circuits that the tilted tramsistor circuit of the previous stage is tilted back by tilting a transistor circuit into the working position. The structure, connection and function of such coupling circuits are already known, inter alia, from the technology of electronic counting chains. Which elements are used is determined by the conditions under which the waiting means operates, and is determined by the properties of the device ^1, with which it communicates. Other possible changes, such as B. shifting the potential of a stage to save bias sources under certain circumstances, or Sel.bsteschescherung the tube T3 or connection of the cathode of the tube T 3 to the common cathode resistor R 2 omitting the resistor R 1 when using current gates and similar measures are available are not causally related to the essence of the invention and are therefore not explained since they are known per se. It is also pointed out that the various features of the individual waiting devices can also be combined to form switching arrangements with a structure that differs from that of the figures shown.

Claims (25)

Patent claims: 1. Waiting facility in telecommunications, in particular Telephone switching systems, thereby characterized, that before each by activating an electronic switching element of an evaluation stage The device to be occupied is a series connection of electronic switching elements equipped memory stages is arranged and that each of these electronic switching elements assumes the activated state when the preceding it in the series connection is in in this state, and thereby the return of the previous one to the non-activated one State causes, and that triggering the activation of the associated device Incentive activated immediately the associated switching element of the first memory stage. 2. Waiting device according to claim 1, characterized in that it has an input memory and contains an evaluation stage. 3. Waiting device according to claim 2, characterized in that the input memory and evaluation stage each contain a plurality of electronic switching elements that are mutually assigned are, and that the respectively activated switching element of the evaluation stage a! activation the other switching elements of this stage prevented. 4. Warning device according to claim 3, characterized in that the respectively activated switching element of the input memory when another switching element of this stage is activated this is returned to the non-activated state will. 5. waiting device according to claim 3, characterized in that the respectively activated switching element of the input memory the activation the other switching elements of this stage prevented. 6. Waiting device according to claim 5, characterized in that to prevent activation further switching elements of the input - memory when the activated state occurs one of these switching elements all switching elements of the input memory with a common one Facility are equipped. 7. Waiting device according to one of claims 3 to 6, characterized in that two input memories and evaluation stages are provided and the return of activated switching elements to the non-activated state is carried out jointly for both input memories. 8. Waiting device according to one of claims2 to 7, characterized in that there is an intermediate memory between the input memory and the evaluation stage are inserted. 9. Waiting device according to claim 8, characterized in that the buffer is electronic Contains switching elements, each of which assumes the activated state, if that to it assigned to the previous. Level yourself in is in this state, and this returns it to the non-activated state, and that each switching element of the subsequent stage dem assumes activated state when the buffer memory assigned to it is in this State and the switching element of the buffer in the non-activated state returns. 10. Waiting device according to claim 9, characterized in that the buffer memory accordingly the input memory and the evaluation stage a plurality of electronic switching elements contains and the activated switching element of the buffer by means of all Switching elements of this stage common device activating the remaining switching elements this stage prevented. 11. Waiting device according to one of the preceding claims, characterized in that each activated electronic switching element of each level, with the exception of the evaluation level, through 4-5 direct coupling with the electronic. Switching elements the next stage when one of these switching elements is activated in the non-activated State can be traced back. 12. Waiting device according to one of claims 1 to 10, characterized in that Each stage, with the exception of the evaluation stage, has its own with an electronic switching element ^ Ment equipped device is assigned, by means of which each activated switching element of this Stage is returned to the non-activated state if a in the following stage electronic switching element is activated. 13. Waiting device according to claim 7 using the arrangement according to claim 12, characterized in that the electronic switching elements activated for feedback one Stage in the non-activated state serving device each the same two storage stages. is assigned jointly. 14. Waiting device according to one of the preceding claims, characterized in that the electronic. Switching elements of the evaluation stages individual elements are assigned that correspond to those assigned to them in the activated state electronic switching elements flow electricity evaluate. 15. Waiting device according to claim 7, characterized in that in connection with the electronic Switching elements of the evaluation stages elements are provided that when activated two electronic switching elements each of the evaluation stages, one of which is the one and the other belong to the other evaluation stage, evaluate flowing current, and that By means of these elements associated decoupling directional conductors, the formation of parallel circuits is prevented. 16. Waiting device according to claim 1, characterized in that the electronic switching means Gas discharge tubes are. 17. Waiting device according to claim 16 in application to an arrangement according to claim 3 or 4, characterized in that the ignition electrodes of the cathode side with individual parallel circuits of resistors (R2) and capacitors (Cl) and anode-connected via a common resistor (Rl) . the positive pole of the operating voltage source (+ Ub) connected gas discharge tubes. (Tl) of the input storage device with the interposition of capacitors (C 2) to the inputs of the waiting device (a, b ... ) Are connected so that the ignition electrodes are equipped with a common cathode resistor (R7) and on the anode side via a common contact (/. 1) Gas discharge tubes (T 2) of the evaluation stage connected to the positive pole (+ Ub) of the battery voltage source are connected to the cathodes of the associated tubes (Tl) of the input memory and are so biased (+ Uv 2) that a tube «(T2) of the Evaluation stage ute when burning, the associated tube (Tl) of the input memory can ignite, means for extinguishing the respectively burning tube (Tl) of the input memory when igniting the associated tube (T 2) of the evaluation stage and elements for evaluating the burning of a tube (T2) of the evaluation stage of flowing current are provided and that when a tube (T2) of the evaluation stage burns, further tubes (T 2) of this stage are ignited by one of these tubes The common cathode resistance (R 7) is prevented. 18. Waiting device according to claim. 17 in application to an arrangement according to claim 6, characterized in that the tubes (Tl) of the input memory have a common cathode resistor (R 12) in series with their individual, cathode-side parallel connections of resistors (R 2) and capacitors (C 1). lies. 19. Waiting device according to claim 17 or 18, characterized in that the means for extinguishing the burning tube (T 1) this output memory is equipped with a cathode-side parallel connection of resistor (R 11) and capacitor (C 4) and anode-side via a contact (12 ) is connected to the common anode resistance (R 1) of the tubes (Tl) of the input memory gas discharge tube (T3), whose ignition electrode is led via a capacitor (C 3) to the common cathode resistance (R7) of the tubes (T 2) of the evaluation stage and is so biased (+ UvI) that this tube (T 3) only ignites one of the tubes (T 2) of the evaluation stage when the ignition blower and that when it burns Tube (Γ3) can ignite one of the tubes (ΓΙ) of the input memory. 20. Waiting device according to claim 13 using arrangements according to claims 17 or 18 and 19, characterized in that both input memories are equipped with a common extinguishing tube (T 3) and, for this purpose, in the connection between anode-like contact (/ 1) of the extinguishing tube (Γ3 ) of an input memory, and the common anode resistor (R 1 χ) ίο whose tubes (TIx) a directional conductor (G ix) is inserted and the connection point between the contact (1 1) and this directional conductor (G 1 x) via a second directional conductor (GIy) is connected to the anode resistor (R 1 y) of the tubes (TIy) of the other input memory. 21. Waiting device according to claim 20, characterized in that between the common cathode resistance (R 7 x) of the tubes (T 2 x) of an evaluation stage and the. A directional conductor (G 2 x) is inserted to the ignition electrode of the two input memories common extinguishing tube (T 3) leading capacitor (C3) and the connection point of this capacitor (C 3) with the directional conductor (G 2 x) via a second directional conductor (G 2 y ) . the common cathode resistance (RTy) of the tubes (T2 y) of the other evaluation stage and via a resistor (R 13) to a ρ osii ti ve bias voltage (+ Uv 3) is connected. 22. Waiting device after one of the preceding Claims, characterized in that the current flow activated switching elements of the Evaluation level evaluating elements are resistors. 23. Waiting device according to one of the claims 1 to 21, characterized in that the current socket activated switching elements of the evaluation stage evaluating elements working magnets, in particular those assigned to the coordinates of coordinate switches, one after the other or magnets to be excited at the same time. 24. Waiting device according to claim 20 or 21 in application to an arrangement according to claim 15 in connection with a coordinate switch constructed from relays with individual decoupling directional conductors, characterized in that between the cathodes of the tubes (T 2 y) of an evaluation stage and their common resistance ( R7y) decoupling directional conductor (G 4) and individual resistors (R16) are inserted into the anode lines of the tubes (T 2 x) of the other evaluation stage and these two groups of tubes (Γ2.ΛΓ, T 2 y) have a common contact (12) are connected to the positive pole (+ Ub) of the operating voltage source. 25. Waiting device according to one of claims 1 to 16, characterized in that the Electronic switching elements made up of transistors are bistable flip-flops. Considered publications:
French Patent No. 952 151. 1 sheet of drawings © 709 58W92 7.57