DE2032385A1 - Method for synchronizing the transmission of messages over a transmission path made up of several lines connected in parallel - Google Patents

Description

Method of synchronizing the transmission of messages via a transmission path made up of several lines connected in parallel.

Addition to the patent. ... ... (Patent application P 17 62 162.4-31) The main patent application (P 17 62 162.4-31) relates to a method for the transmission of messages via a Transmission path bridged by several lines connected in parallel is to which messages to be transmitted are distributed, in which for the transmission generated code characters, which are of the same length, each have several character elements and are transmitted in character groups with one code character per line, at a given place with additional combinations of drawing elements are provided, which indicate as group marks to which group of characters they belong, and in which the number of consecutive groups of characters with different Group marks is greater than the number of code characters used during those Time span can be transferred by which the runtime of the code character on a line at most differs from the corresponding transit time on another line.

The invention specifies how such a procedure is carried out Message transmission achieved a synchronization of sending and receiving organs without a great redundancy of the transmitted code characters in Purchase would have to be made and without a large one to carry out the process Cost of switching means arises.

According to the invention, this is in the main patent application (P 17 62 162.4-31) specified method for the transmission of messages, characterized in that combinations of drawing elements at the points provided for group marks can be used to synchronize sending and receiving organs.

According to a further embodiment of the method according to the invention group marks are used even for step synchronization.

According to a further embodiment, for character synchronization of the inventive method when synchronization is necessary more than one character period transmit synchronization characters with the same length have characters carrying a message and where in place of the group marks certain combinations of drawing elements that are decisive for the synchronization stand.

As a result of the measures according to the invention, the Code characters do not have any additional digits that are exclusively for implementation serve the synchronization, so that with the possibility to carry out a synchronization, no increase in redundancy per code character has to be accepted.

In addition, when carrying out the method according to the invention a relatively small amount of circuit elements required, in contrast to known synchronization method, according to which the transmitted characters ge separated Synchronization characters are prefixed, which are used to display the Syüchronislua must be decoded, which is particularly important in time division multiplex operation a large number of lines requires a large switching circuit.

The synchronization method according to the invention is described below explained in more detail with reference to 6 figures, FIG. 1 serves to illustrate the transmission-side Operations in the transmission method from which the invention is based.

FIG. 2 shows examples of code characters transmitted here.

Fig. 3 shows the synchronization characters that are used in the character synchronization with 3 synchronization characters can be used.

4 shows a block diagram of the arrangement for implementation character synchronization with 3 synchronization characters.

5 shows synchronization characters as they are used in character synchronization with 2 synchronization characters can be used.

6 shows a block diagram for the S ¢ hitungsanordnung for Execution of the character synchronization with 2 synchronization characters.

The transmission-side processes of the transmission method are briefly illustrated on the basis of FIG according to the main application P 17 62 162.4-31 explained, of which the invention Proceeding. The code characters a to f to be transmitted are at time t4 to the supply lines 11, 12 and 13 to three lines All, L2 connected in parallel and L3 of the transmission path. They form 2 groups of characters, one of which the first from the code characters a, b and c and the second from the code characters d, e and f consists, each of these character groups having a code number per line.

With the help of a group generator GG, the code characters are each Provide a group of characters with a group mark. Accordingly, to that in the Fig. 1 shown time t5 the code characters a, b and c with the group label 1 and the code characters d, e and f are provided with the group mark 2. A group mark tester GP establishes the affiliation with the help of the group marks to the same group of characters and causes those belonging to the same group to be passed on Code characters to a memory Q.

If the condition is met with this transmission method, that the number of consecutive groups of characters with different group marks is greater than the number of code characters that can be transmitted during that period are to indicate the running time of a Kodet character on a line from the corresponding Duration of one code character on another line differs at most, one such The transit time deviation is denoted by h at time t6 in FIG. 1 for line L2, then it is guaranteed that code character elements only belong to one group be passed on to the memory Q at the same time.

In Fig. 2 an example of one of the code characters is shown, how they are transmitted according to the method explained with reference to FIG. 1. That Code characters accordingly has 13 character elements, of which the one in the sending direction The first two represent the group brand GM. The following two drawing elements can specify as message identifier whether the character is the beginning, is the end or part of a message that is neither the beginning nor the end. This is followed by 8 drawing elements that represent the information I and last Character element is a character element used to monitor the correct coding P appended. The presence of 4çr message identifier NK and the parity character P. is; ::. 9; 4S synchronization method according to the invention is not absolutely necessary.

As already stated, the group marks themselves are used for synchronization the correct reception of the individual character elements, i.e. for step synchronization exploited.

For this purpose, the transition from binary value 1 to binary value 0 of the character elements is made of the group brands exploited. The coding of the group marks is therefore like this chosen that at least every three characters such a transition from binary value 1 to the binary value 0 occurs This edge transition is triggered by a suitable device recognized and determines the counting period of an actual counter that is incremented by clock pulses, which, in the case of a step resynchronization, initially sets the point in time for a center scan of the drawing elements and thus the transfer of the sent drawing elements to a determined on the receiving side line memory.

At the same time, the counting period is also determined by clock pulses the same pulse frequency of the advanced So 11 counter. After Resynchronization is the further center scanning or step synchronization of a comparison of the counting phases of the actual counter and the target counter. If the two counting periods differ from each other, is made by means of a correction circuit the time of the center scanning shifted in one or the other direction.

This ensures that the death signs are not only step-synchronous but are also received in a character-synchronized manner, character synchronization is required. According to one embodiment of the method according to the invention, however, it is only when switching on or when synchronization errors occur, the can be identified on the basis of the group marking using the group marks. In this case, two or three synchronization characters are used instead of the information characters sent.

In Fig. 3, the coding of such synchronization characters for the Case shown that three of these are needed.

The synchronization characters I, II and III have the same character length as previously sent information signs.

The first two synchronization characters are used instead of the group marks 1 and II a combination of characters that is decisive for the synchronization, the first character element has the binary value 0 and the second character element has the binary value 1. The remaining character elements of the first two synchronization characters 1 and II all have the binary value 1. The first character element of the third synchronization character III has the binary value 0.

The binary value of the second instead of an arUppenmarke component standing sign element tin this Synehroni-Kann sationszeichen3 III / shon again together with its first character element have the meaning of a group mark. The remaining drawing elements can be used as with characters that do not have synchronization characters are, the meaning of a message identifier or information or a Have parity digit.

The synchronization process in which three synchronization characters are required, explained in more detail. On a need for synchronization indicating signal, or at the beginning of the character transmission, the three synchronization characters 1, II and III according to FIG. 2 sent. They will be just like the information signs subject to a step synchronization, which is indicated in the figure by that the input El, to which the synchronization characters are fed, also with a The input of a device Sch serving for step synchronization is connected, whose output M accordingly supplies step-synchronous signals.

The synchronization characters I, II and III also become a control device K, which is able to change binary character elements from binary value 1 to Binary value 0 to be recognized and the on such transitions a signal to an input of the AND element U emits. This AND element U will also have a second Input the step-synchronous signals of the step synchronization device Sch and a third input from a counter Z, if this is in his End position is, a signal is supplied to each. The counter Z has thirteen counter states.

Via the output of the coincidence element U, which is the first stage St1 influenced by the counter Z, the counter can be started. Once that is done is, the first stage Stl sends a signal to the receiving-side memory Sp, that the time of his readiness to receive fdr at his information input E2 determines pending characters.

So if from the control circuit K a binary character element change 1/0 is recognized and the counter Z as usual before each new synchronization has assumed its last counting status is indicated by a step-synchronous signal the device Sch the counter started and counts, since the output signals of the Device Sch via a control circuit A also supplied to its other stages continue step-synchronously until it has reached its end position again. if the mentioned 1 / O-3 binary value transition which sets the counter Z in motion due to the first Character element of the first synchronization character which, according to the prerequisite, is the Has binary value 0, came about and if during the counter cycle no synchronization error has occurred, the counter Z must after one pass start again as the transition from the first to the second synchronization character also means again a t / 0 character change.

If, on the other hand, after the counter has passed from the control device K no such a 1/0 binary change is recognized, the counter stops and waits the next 1/0 binary character change, whereupon the counter is character-synchronous starts up. So it is at the latest by the binary character change on which the first Binary character element of the third synchronization character is involved in synchronous operation manufactured. The second character element of the third synchronization character can therefore once again serve to co-determine a group brand and that at the information points This sign standing sign elements can already be part of a Be message.

As already indicated, synchronization can also be carried out with the aid of can be made from only two synchronization characters. Such a sequence of two The synchronization symbol is shown in FIG. Accordingly, the first two point Character elements of the first synchronization character Ia, which instead of a group marking stand, the binary values 0 and 1. The remaining drawing elements show the Binary value 1. The first character element of the second synchronization character IIa has the binary value 0. The 3 binary values of the second and the remaining drawing elements are irrelevant for the synchronization and can be part of a group marking or information.

The synchronization method will now be used with reference to FIG such a pair of synchronization characters Ia and IIa explained in more detail. in the If synchronization is necessary, synchronization characters are sent at the entrance El. In addition, a signal occurs at input N, which over the AND gate U3 and the OR gate 0- causes the counter Z to be reset, which here again has thirteen possible counting states.

The bistable flip-flop PF, its inputs, one of which is negated is, are interconnected and connected to the input N and one of them Output is connected to the negated input of the AND element U3, causes that the signal present at input N only affects the counter for a short time.

As soon as the control circuit K determines a binary value 0, causes the output signal of the AND element U1, which influences the first stage St1 of the counter Z, its starting.

Signals fed to input M which, due to step synchronization, which is the same as that of the exemplary embodiment according to FIG. 4, step-synchronized are, cause.

a step-synchronous advancement of the counter Z.

If the O binary value is that of the first character element of the first synchronization character has acted, the counter Z counts up to its End position in which it sends a signal to one input of the AND element U4. The other input of the AND gate U4, which is negated, is used by the synchronization characters applied and receives the binary value 0 at this point in time. The AND element U4 gives therefore from its output L a signal that the deletion of the pending at input N, causes the resynchronization triggering signal. In the case of a correct synchronization At this point in time, the control circuit K recognizes an O binary value again, namely those of the first character element :: of the second synchronization character, whereupon the counter Z starts up again. Here the payer gives to the entrance 8 of the memory Sp from a signal indicating the time of the adoption of separate characters into the memory via its input E2.

In the event of a synchronization error, if so after passing through of the counter Z a binary value 1 is sent remains the counter Z stand until the next O binary value occurs and causes it to start, with which a new synchronization begins O binary value occurs before it has reached its end position, the counter becomes immediately postponed, since in this case the link condition of the one nsed and AND gate U2 having a non-negated input through the input N supplied signal causing the resynchronization and the O binary value having character element of the sent character is fulfilled and from its output A reset signal is given to the counter Z via the OR gate 0. Another The counter Z then starts up as soon as the control circuit K has a subsequent one Has recognized O binary value. The synchronization method explained with reference to FIG. 6 has the advantage over that explained with reference to FIG. 4 that only two synchronization characters are required for secure synchronization. On the other hand, however, this is what causes the resynchronization, the Signal fed to input N required X 6 claims 6 figures

Claims (1)

Claims 1. A method for transmitting messages about a transmission line bridged by several lines connected in parallel is to which messages to be transmitted are distributed, after which for the transmission generated code characters, which are of the same length, each have several character elements and are transmitted in character groups with one code character per line, at a given place with additional combinations of drawing elements are provided, which indicate as group marks to which group of characters they belong, and after that the number of consecutive groups of characters with different Group marks is greater than the number of code characters used during those The time span can be transferred by which the running time of a code character on a line differs from the corresponding running time on another line at most, after Patent application P 17 62 162.4-31, d u r c h g e ken n z e i c h n e t that Combinations of drawing elements located in the places intended for group marks (GM) for the synchronization of transmitting and receiving organs are used (Fig. 2), 2. The method according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the Group marks themselves can be used for step synchronization. 3. The method according to claim 1 or 2, d a d u r c h g e -k e n n z e i c h e t that a certain combination standing in place of the group marks of character elements (e.g. O, 1) Part of synchronization characters used for synchronization which are only sent when synchronization is necessary and which have the same length as characters carrying a message and instead of being transmitted over more than one character period (Fig. 3, 5). 4. The method according to claim 3, d a d u r c h g e k e n n -z e 1 c h n e t that 3 synchronization characters are sent, and that by the occurrence of a certain binary character change (e.g. O, 1), which is preceded by the last one before the occurrence of a synchronization character (I) and the first in place a group mark component of a character element (1, I) of a synchronization character or by the last character element of a synchronization character (I) and the first character element of the following synchronization character (1, II) determined is, a counter (Z) with the number of character elements of a synchronization character corresponding counting capacity is started, which is synchronized with the occurrence of the Character elements of the synchronization characters (I, II, III) are incremented and after running through all counting states at the time of a repeated occurrence of the specific binary character change (e.g. O, 1) starts again, whereby it is activated by submitting of a signal is the time at which the received characters accept the sent characters determined (Fig. 3, 4). 5. The method according to claim 4, d a d u r c h g e k e n n -z e i ch n e t, that the synchronization characters at the first replace the group marks Digits (1) have character elements of the binary value 0, and that at least the two first synchronization characters (I, II) in all other positions (2 ... 13) character elements of the binary value 1 (Fig. 3). 6. The method according to claim 3, d a d u r c h g e k e n n -z e i c h n e t that two synchronization characters (Ia, IIa) are sent, whose first digits (1) character elements of the same have a binary value (e.g. 0) and of which at least the first (Ia) in the remaining places (2 ... 13) character elements of the other. Binary value (e.g. 1), and that a counter (Z) with the number of character elements of a synchronization character with corresponding counting capacity, which is incremented synchronously with the occurrence of character elements, to on the signal indicating resynchronization is reset to its initial position and when a character element occurs from that in the first position of the synchronization character corresponding binary value (0) starts up again and continues for as long until a character element has this binary value that caused it to start. (0) causes a renewed reset, whereupon another character element this Binary value (o) causes a restart, or as long as it is advanced, until its end position is reached, after which, if with the next step again a character element with the binary value that caused the initial start-up (o) occurs, the signal indicating the resynchronization ends and the point in time the reception of the characters sent is determined, in the case of the The other binary value (i) occurs but the synchronization process repeats will.