DE1031837B - Electronic corrector for codes of different numbers of digits in telecommunication systems - Google Patents

Description

In exchanges for automatic dialing systems, devices, especially for remote dialing purposes, used, with the help of which the key figure selected by the participant of a special evaluation is subjected. This evaluation takes place in order to determine the charge zone to which the called Participant heard, and to determine the direction in which he can be reached, through which an appropriate selection is made possible among the trunk groups provided for this purpose. Such Facilities are also referred to as correctors, and one then speaks of a conversion the key figure.

Those sent out by a calling subscriber when dialing the various digits of the code Dial pulse series are fed to a memory and there in the form of a specific setting the same saved. Every time after a digit has been saved, connects the memory for a certain period of time with a central corrector for the purpose a revaluation of already stored digits of the code, depending on the location of the called subscriber and the routing of the connection routes in question is followed by a revaluation after the Storage of more or fewer digits of the code. After the revaluation has taken place the memory is no longer in contact with the corrector.

In the case of the correctors under consideration here, the memory is via a A certain number of input lines are connected to the corrector that contain the digits already selected are marked accordingly in a certain way by potentials. Output lines are also available, which lead to result relays which are in the memory. The marking of the input lines is now electronically, i.e. very quickly, in the corrector in a certain marking of the output lines leading to the result relays, whereby some of the result relays energized and thus made to respond. The marking of the output lines but only takes place when a sufficient number of digits of the code of the called subscriber has been stored in memory. The number with a number sufficient for the revaluation of digits is referred to below as the revaluation number. Is the number of digits still like this small, that zone and direction are not determined with sufficient accuracy, the revaluation number in this If the connection is incomplete, the result relay will not be energized. It connects the memory changes after saving

for key figures with different numbers of digits

in telecommunications systems

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 2

Helmut Palsa, Oberbachern near Dachau,

and Dipl.-Ing. Peter Gerke, Munich-Solln,

have been named as inventors

a digit with the corrector for a period of time that is at least the response time of the result relay until the key figure for the revaluation is complete, whereupon this takes place.

As already mentioned, the conversion in the corrector takes place very quickly in the given case. On the other hand, it takes a long time for the relevant result relays, which are energized, to respond, after which the memory separates from the corrector. The corrector is occupied by the memory until the result relays respond. If no conversion could take place, the memory can only be separated from the corrector after such a time that the result relay could have responded. In cooperating with the corrector save this design, the occupancy time of the L ^T mwerters, so regardless of whether a revaluation is done or not because of incompleteness of Umwertungskennzahlen. Since the time for storing the number disk pulse series in the memory is long compared to the occupancy time of the corrector - it is as long as the number dialing - several memories can work together with one corrector.

In Fig. 1 is shown for easier understanding how the memory cooperate with the corrector. The three memories SP1, SP 2 and SP 3 present here work on the corrector UM via a self-locking test multiple PV. The test multiple prevents more than one memory from being connected to the corrector at the same time. The code number to be converted is fed to the corrector via the input lines e and via the

809.530 / 121

Output lines r the result relays in the relevant memory are energized if necessary.

The invention now aims at a substantial improvement in the operability of the corrector, in particular a reduction in the average occupancy time by a storage unit. Also enables the invention to make certain traffic measurements in a simple manner. Such a corrector, which works together with several memories with result relays to be excited and which only works with Completeness of a revaluation indicator provides a result is characterized in that at Incompleteness of the conversion code from the corrector a special cut-off voltage for excitation a fast switch-off relay is supplied in the memory, which with its response to the The memory separates from the corrector, whereas the cut-off voltage in the case of completeness of the conversion code is suppressed in order to enable the response of the result relay. ao

The essence of the invention is to be explained in more detail in the following description with reference to the drawing will. In detail shows

2 shows the diagram of a corrector which operates according to the method according to the invention. In Fig. 2 a method for counting occupancy of the corrector is also shown schematically, this through the improved working capacity of the corrector based on the method according to the invention results as further training of the same.

Fig. 3 shows a special circuitry embodiment for a corrector according to the method according to the invention; in the

Fig. 4 shows a further embodiment of the invention, which is a measurement of the traffic to a Office that cannot yet be reached via cross-connections is enabled. 4 and the scheme for counting of assignments in FIG. 2 thus show how the property of the corrector achieved by the invention can be used advantageously in a number of applications, from which in particular the progressiveness of the method according to the invention shows.

The essence of the invention will now first be explained in more detail with reference to FIG. The marking of the input lines e drawn there is not converted into marking potentials on the output lines leading to the "result relays R1 to Rn" in the corrector UM, if the associated conversion code still has too few digits, i.e. is incomplete, when the corrector is occupied by a memory. so that these relays are not energized. In this case, however, the switch 5 "supplies an operating voltage for the fast cut-off relay A which, after it has responded very quickly, terminates the assignment of the corrector. However, the process is different if the conversion code is complete and leads to a conversion. In this case, the result relays are excited, whereas the excitation of the cut-off relay A is suppressed by preventing the switch S from supplying the required operating voltage The occupancy time of the corrector is therefore significantly shorter in an occupancy that does not lead to a result than in the other case, which significantly increases the performance of the corrector, so more memory can be allocated to it but n and other advantageous uses which will be described later.

3 shows the circuit of an exemplary embodiment for the method according to the invention. In this example, the operating voltage, i.e. the cut-off voltage for the cut-off relay A _{1, is} supplied by an electronic switch as long as it is in the rest position, which is connected to the lines leading to the result relays Rl to Rn via an "or" circuit and through the marking voltage occurring there comes into the working position and switches off the operating voltage. The "or" circuit exists here, for example. B. from the directional ladders Gl to Gn; the electronic switch is represented by the pnp transistor T 1 with the resistors W1, W2 and WZ .

The switching elements of the switch are connected to ground potential and to the voltages - Ul and - U 2 , the voltage - i / 2 being more negative than the voltage - Ul . The voltage - Ul is applied to the emitter of the transistor Π, while the collector is connected to the voltage - U 2 via the switch-off relay A. The base is connected to a tap of the voltage divider from the resistors W1, W2 and W3 lying between ground and the voltage - U 2 . This tap lies between the resistors W2 and WZ, and the resistors are chosen so that a current flows from the emitter into the base, which is why the transistor is conductive, as required. If the result relays are not energized, the voltage division at the resistors Wl, W2 and WZ is not influenced by the "OR" circuit from the directional conductors Gl to Gn , because in this case the negative voltage at their inputs via the result relays Rl to Rn - [72 is connected and therefore the directional conductors G 1 to Gn are claimed in the reverse direction. If result relays are excited, the voltage -Ul occurs at at least one input of the "OR" circuit, since this is used as the excitation voltage for the result relay, which is shown schematically by the switching contacts si to sn in the corrector RU , which are connected to the Voltage - Ul are connected, is indicated. This voltage - Ul therefore has a low-resistance effect on the tap of the voltage divider located between the resistors Wl and W2 , as a result of which a voltage occurs at the base that is now more positive than the voltage - Ul and therefore also more positive than the emitter voltage. The transistor T 1 is therefore blocked and the excitation of the switch-off relay A is suppressed. Since the conversion is done electrically, the switches si to sn close very quickly, the cut-off voltage is suppressed before the cut-off relay responds.

The property of the corrector, when using the method according to the invention, to have a different occupancy time, depending on whether the conversion number is complete or incomplete, is determined with the help of the counting devices Z 1, Z 2 and ZZ provided in FIG different occupancy types exploited. For this purpose, the corrector is set up in such a way that it emits a counting pulse of equal length during its occupancy time. This counting pulse can e.g. B. via an "or" circuit connected to the input lines for the first digit of the code

5 6

can be obtained, as it is formed in FIG. 2 by the direction of the associated (ni) -digit conversion code ladder GOl to GOw. While each operation would be carried out, the suppression of the corrector occurs, since it is the first of the cut-off voltage when converting this (ni) digit of the code, prevented at one of these input-digit conversion code and these lines have marking potential, which at the same time reversed the n-digit code number associated with the counting pulse for the purpose of revaluation at every incoming output of the “or” circuit on the 5th prevention. The two counting numbers are now connected to this output, whereby the (ni) -digit conversion code with devices Z1 and Z2 are connected. The count is converted.

device Z1 has a response time that is shorter than when converting the re-digit

the occupancy time with incomplete conversion * ° code belonging to the office whose traffic code is. It therefore speaks to relationships that should be measured with each occupancy, which continues and counts this. The counting device Z2 has activated a counting device. To this Talk time that is longer than the occupancy time in the case of un- way is achieved that the people in question full revaluation key figure and shorter than key figures are only revaluated when they the occupancy time with complete revaluation code 15 have so many digits that the office for which the tally is. It therefore only counts those occupancies that are to be measured, can be determined, which leads to a revaluation and thus to an It should be noted that the measurement in speak of the result relay. The analog way is also possible if normally number of assignments that did not result in a revaluation already with the (n-2) -th digit of the valuation has now been carried out at the same time as the 20 revaluation key figure or even earlier Difference between the two by the counting devices Zl is.

and Z2 determined numbers. You get them directly. In Fig. 4 is an embodiment for the

by having a third counting device Z 3 represented by the structure of such a corrector. Controls as counting devices Zl and Z2, namely the switch for the supply of the cut-off voltage, that the counting device Z1 when counting the counting device is again the electrical device Z3 used in FIG Transistor T1 used, direction Z2, the counting device Z3 switches back. If slow counters are used for counting, Wl and WZ are now facilities at the connection point between the counter, since the assignments of the corrector are very closed, which control the switch in such a way that they can follow one another quickly and in some cases a very high cut-off voltage in the event of a revaluation of n-digit short, between these counters and the revaluation key figures are canceled. The other electronic frequency dividers provide, as they are already known per se. at these facilities in a known per se

A corrector, which according to the invention is set up on the locally arranged EinMethode, also enables the measurement of 35 fork lines coincidence circuits with their one of the traffic are connected to an office that is not crossed via cross connections, to whose outputs then reachable. This office is a w-digit a tax potential occurs when assigned to all of the code number. It is known that with the remote input lines the marking potential selection using the detour is several, which occurs when the associated code number is available from the route to be entered in the corrector for a certain part of the memory. To come with the target office. Lines indicated by the first digit of the Sl are the first digit of the destination exchange designating code is assigned beispiels- measure that denoted by S2 of the example, the central office determines through which it is to ER- second location and the designated S3 of the third range , with the second digit the main office and position. If necessary, further lines through the third digit are the node office. Runs of 45 groups present. In the case of this exemplary embodiment, the route used via these offices is what is known as the office (node office), whose traffic relationship is called the code number route. Now is to be measured, identified by the code number 112, but in the exchanges ¹ there are still cross paths, if there are no direct connections to all node offices of the main office, for example bypassing central offices or 11, a main office will be available, especially if to 50 Revaluation has already been carried out if the identification number 11 is entered for the relevant destination office. This revaluation takes place. The conversion of the code takes place via the coincidence circuit from the occurrence only when there are already so many digits in the status J ^ II and the directional director GH, which have been entered into their output memory, that the cross-connection is connected through the conversion device RU reachable target office is set. 55 which in this case the excitation of the result while eg without cross-connection the reversing relays R 1 and i? 3 via the switching contacts s 1 and s 2 evaluation already takes place in many cases when caused by, whereby the voltage for the disconnection second digit of the code, the main office fixed relay A is initially unoccupied in the manner already described, the revaluation takes place if such is suppressed. In this case, however, there is also cross-connections to the relevant nodes - the coincidence circuit consists of the resistor W 12, only when the third and the directional conductor G12 provide the node office with its identification number. The transition in this case to a control potential at the same time can thus occur in the case of the relevant one, since it is connected to the same lines with the digit shorter code number not taking place. is like the previously mentioned coincidence circuit.

The code for the office for which the traffic 65 As working voltage on the input lines measurement is to be carried out, has already used the voltage - / 72 here, in the idle state given w-digits. In order to measure the traffic, however, the lines are grounded. The out of one The coincidence circuit from the resistor cannot be reached via the cross-connection to be carried out with a w-digit code, with the ^ F 12 and the directional director G12 via the decoupling without Traffic measurement already a revaluation at 70 Richtleiter G 5 and the resistance PF 4 with the base

of the transistor Tl connected. The resistor W 4 is much smaller than the resistor W2, so that the influence of the voltage - [72 at the base over that of the voltage - U1, which originates from the correcting device RU , predominates and the transistor becomes conductive, since its base is more negative than its emitter is made. When the fast cut-off relay A is activated, the memory is separated from the corrector before the result relays have responded. A revaluation could therefore not take place in this case.

After entering the third digit of the code in the memory, the corrector is again assigned by the memory. Two different operating cases can now occur. This three-digit code is either that of the relevant office, i.e. code 112, or another that begins with the digits 11. If it is not the code 112, but z. B. the code 113, the outputs of the coincidence circuits from the components WIl and GIl and W 12 and G 12 are activated again, as in the previous case. In addition, however, the output of the "or" circuit, which consists of guide lines G17 to G21 and is connected to all input lines of the third digit of the code, is activated. At the output of this "or" circuit, the voltage occurs - [72 and the PNP transistor T2, now at its base instead of through the resistor W 6 supplied reverse voltage - the voltage UO is - U2 effect on the resistance W7, is made conductive, and at the connection point between the collector resistor W5 connected to the voltage - U 2 and the collector, instead of the voltage - U 2, there is now almost the emitter voltage -Ul. Via the decoupling directional conductor G 6, the emitter voltage U1 of the transistor T2, which is more positive than the voltage - [72 more positive emitter voltage - U1 acts at the output of the coincidence circuit from the components W12 and G12. In this case, the base of the transistor Tl is so much more positive that this transistor is blocked again. The switch-off relay A is not energized, and the assignment of the corrector is only ended when the result relays Rl and RZ respond.

If, on the other hand, the code 112 is entered into the memory, all processes take place as before, but the transistor T3 is also made conductive and the counting relay Z is actuated. The resistor W 13 forms a coincidence circuit with the directional conductors G13 and G14, which is connected to the input lines belonging to the code number 112, so that the pnp transistor T 3 connected to its base at the output of this coincidence circuit is triggered by the control voltage - U 2, which is more negative than its emitter voltage - [71, is made conductive via resistor JF13. \ ^R orher he had been held by the ground potential at the input line of the directional conductor G14, which is the potential in the idle state, locked. In Fig. 4, the rotary switches dl, d2 and d 3 are still available. With their help you can measure the traffic to any other offices with the appropriate setting.

Claims (10)

65 claims: 1. Electronic corrector for codes of different numbers of digits, which only delivers a result when a conversion code is complete and which is alternately occupied by one of several stores that deliver the codes and record the conversion result with result relays to be excited, characterized in that if the conversion code is incomplete from Corrector {UM) a special cut-off voltage is supplied to excite a fast cut-off relay (A) in the memory, which, when it responds, separates the memory from the corrector (UM) , whereas if the conversion code is complete, the cut-off voltage is used to enable the result relay to respond ( Rl to R5) is suppressed. 2. Electronic corrector according to claim 1, characterized in that the cut-off voltage from an electronic switch (Tl, Wl, W2, WZ) is supplied in its rest position, which via an "or" circuit (Gl to Gn) to the Result relay (Rl to Rn) leading lines is connected and comes into the working position due to the excitation voltage occurring there and thereby switches off the cut-off voltage. 3. Electronic corrector according to claim 2, characterized in that the electronic switch consists of a transistor stage (Tl, Wl, W2, WZ) which is conductive in the rest position and is blocked in the working position by the excitation voltage for the result relay. 4. Electronic corrector according to one of the preceding claims, characterized in that the corrector (UM) emits a counting pulse of equal length during its occupancy time and that two counting devices (Zl, Z 2) are connected to it, the first (Zl ) has a response time that is shorter than the occupancy time in the case of an incomplete revaluation number, and the second (Z 2) has a response time that is longer than the occupancy time in the case of an incomplete revaluation number and shorter than the occupancy time in the case of a complete revaluation number. 5. Electronic corrector according to claim 4, characterized in that the first counting device (Zl) a third counting device (Z3) advances and the second counting device (Z 2) the third counting device (Z 3) switches back. 6. Electronic corrector according to one of the preceding claims with a device for measuring the traffic to an office that cannot be reached via cross-connection with a 7i-digit code, in which a conversion would already be carried out at the associated (ni) -digit conversion code without traffic measurement, thereby characterized that the suppression of the cut-off voltage is prevented when revaluing this (ni) -digit revaluation number and this prevention is reversed for the purpose of revaluation for every associated »-digit number, whereby the (ni) -digit revaluation number is also revaluated, and that in the revaluation of the The »-digit code number belonging to the relevant office, the forwarding of a counting device is effected. 7. Electronic corrector according to claim 6, characterized in that the transistor stage (Tl, Wl, W2, WZ) when converting the loading corresponding (η-ί) -digit conversion code is made conductive by a control voltage that prevails over the reverse voltage. 8. Electronic corrector according to claim 7, characterized in that the transistor stage (Tl, Wl, W2, WS) is blocked when converting the relevant M-digit code numbers by a HiKsspatmung prevailing against the tax spant. 9. Electronic corrector according to claim 8, characterized in that the w-th point the input lines assigned to the code number Inputs of an "OR" circuit (G 17 to G21) are connected, the output of which controls a switching transistor (T2) for supplying the auxiliary voltage, which is so low-resistance that the auxiliary voltage prevails over the S expensive voltage. 10. Electronic corrector according to one of claims 7 to 9, characterized in that the control voltage is fed via a decoupling directional conductor (GS) to the transistor (Tl) supplying the switch-off voltage and that the auxiliary voltage suppresses the control voltage via a directional conductor (G 6). 1 sheet of drawings