DE1124083B - Circuit arrangement for converting start-stop telegraphic characters transmitted in continuous sequence - Google Patents

Description

Circuit arrangement for converting continuously transmitted Start r Stop -Telegrafiezeichen The invention relates to a circuit arrangement for converting start-stop telegraph characters transmitted in a consecutive sequence with either n or n + 1 code steps from a serial representation into a most electronic serial-to-parallel converters include one at the beginning of each start-up step of a telegraphic signal triggered clock distributor at its outputs emits clock pulses at the target mid-step times of the individual telegraphing steps, so that the polarity present at the input is scanned and stored in bistable memory elements stored in a buffer. After the telegraphic sign has been saved in full all levels of the buffer are queried simultaneously in the buffer, and you get the telegraph drawing in parallel display.

With the known such series-parallel converters can only Telegraphic characters are always implemented with the same number of steps.

The purpose of the invention is to specify a series-parallel converter, with the start-stop telegraphic characters transmitted in consecutive order with n or n + 1 code steps can be implemented. As with the well-known series-parallel converters - a clock distributor starting at the beginning of each start-up step from a basic position used, whose distribution impulses the telegraphic characters in their nominal steps scan and via gate circuits their storage in appropriate stages of a buffer, from which they are stored in parallel after the end of the storage be spied out.

According to the invention a sampling circuit is provided whose first input the telegraphic characters to be implemented and their second receipt within a period of time, to the blocking step in the case of a telegraphic character with n + 1 code steps and in the case of a telegraphic character with n code steps, the start-up step of the following telegraphic character is present, one derived from the clock distributor Test pulse is supplied and is dependent on the occurrence or non-occurrence of this Test pulse at the output of the scanning circuit (GK) the associated telegraph character an identification signal assigned to this telegraphic character as consisting of n or n + 1 code steps consisting of.

The test pulse is advantageously generated as a result; that the one from the last Stage of the clock distributor, the derived pulse triggers a timer, which after a emits the test pulse at its output for a certain time. Details of the invention are explained on the basis of the drawing.

In Fig. 1, line a, a telex character with 6 code steps is shown. It consists of the start-up step A 1, the code steps 11 to 16 and the 11/2-fold. Blocking step Sp 1. Fig. 1, line b, shows a telex character with 5 code steps, which consists of the start-up step A 1, the code steps 11 to 15 and the 11/2 blocking step Sp 1. A telegraph speed of 50 baud is used as a basis for both cases (Fig. 1, line c). In the case of telegraph characters transmitted in a consecutive sequence, at time tp = 160 ms, in the case of a telex character with 6 code steps, the blocking step Sp 1 of this telex character (Fig. 1, line a) and, in the case of a telex character with 5 code steps, the start-up step A 2 of the subsequent telex character ( Fig. 1, line b) available. Since these two steps always have different polarity, it can be determined at this point in time whether the telex character consists of 5 or 6 code steps.

2 shows an advantageous embodiment according to the invention. Via the contact e of the receiving relay (not shown), for example, the ones shown in FIG. Line a, telex characters shown with 5 or 6 code steps received and fed to one input of each of the coincidence gates G 1 to G 6 and GK. At the beginning of each start-up step, the clock generator TG is triggered and the stage TA of the clock distributor is brought into a state that differs from the other stages T1 to T 6 of the clock distributor. The clock generator emits seven clock pulses at the desired mid-step times of the telex characters according to FIG. 3, line b, which are fed to all stages of the clock distributor. As a result, the state of the clock distributor stage TA is switched from stage to stage of the clock distributor in each case at the target pace mid-times. At the output of the clock distribution stage T 1 then occurs during the target step center of the first code step (Fig. 3, line c), at the output of the clock distribution stage T2 during the target step center of the second code step, etc., a pulse occurs that the other input of the coincidence gate G 1 or G 2 is supplied. As a result, the corresponding step polarity is stored in steps Z 1 to Z 6 of the intermediate memory in each case at the target step mid-times. The pulse emitted by the clock distribution stage T 6 (FIG. 3, line d) also sets the stages S I. to S 6 and the stage SK of an output memory back to the rest position via the amplifier V 1. At the same time, this pulse triggers the timing element Z which, after a period of 11/2 steps, emits the test pulse (FIG. 3; line e) at its output and feeds it to one input of the coincidence gate GK.

As can be seen from FIG. 3, at this point in time in the case of a telex character with 6 code steps, the blocking step of this character (Time t1 or time t3) and in the case of a telex with 5 code steps the start-up step of the following character (time t2). The coincidence gate GK is then either permeable or blocked for the test pulse. As a result, will the output memory flip-flop SK switched or remains in the by the Amplifier V I supplied pulse caused position lie. The location of the tilting stage SK therefore denotes a telex character with 5 or 6 code steps. The one at the exit of the gate GK received pulses are in Fig.3. Line f, shown.

The test pulse emitted by the timing element Z (FIG. 3; line e) is simultaneously via the amplifier V2 all stages Z1 to Z6 of the buffer and causes the transmission of the telex code stored therein in the corresponding stages S1 to S6 of the output memory. At the outputs of the storage levels S 1 to S 6 and the storage stage SK are then the telex characters and -ein the number of code steps of this telex characterizing feature up to for withdrawal by the pulse via the amplifier V 1 for parallel evaluation to disposal. The individual stages of the clock distributor and the memory can be stored in known technology, for example composed of magnetic cores, transistors, etc. will.

With the circuit arrangement according to the invention can in continuous The sequence of transmitted start-stop telegraph characters is transmitted with n and n + 1 steps will. The length of the locking step does not matter as long as the locking step is the same length for both types of characters. For hand-sent telegraphic characters, however the circuit arrangement according to the invention is not suitable, as in this case the length of the locking step is not specified.

Claims (3)

PATENT CLAIMS: 1. Circuit arrangement for converting to continuous Sequence of transmitted start-stop telegraph characters with n or n + 1 code steps a series representation in. a parallel representation with one at the beginning of each Starting step from a basic position starting clock distributor, its distributor pulses scan the telegraphic characters in their target step centers and via gate circuits their storage in 'cause corresponding levels of a buffer, from which they are stored in parallel after the storage has ended, thereby characterized in that a sampling circuit (GK) is provided, the first input of which the telegraphic characters to be converted and their second input within a period of time, to the blocking step in the case of a telegraphic character with n + 1 code steps and in the case of a telegraphic character with n code steps, the start-up step of the following telegraphic character is present, one derived from the clock distributor Test pulse is supplied and that depending on the occurrence or non-occurrence of this Test pulse at the output of the scanning circuit (GK) the associated telegraph character an identification signal. that this telegraphic character is assigned as one of n or n + l consisting of code steps. 2. Circuit arrangement according to claim 1, characterized in that the test pulse also the parallel Ausspeiche @ zung of the associated telegraphic characters from the buffer (Z 1 to Z6). 3. Circuit arrangement according to Claims 1 and 2, characterized in that the von the pulse derived from the last stage (T6) of the clock distributor triggers a timer (Z), which emits the test pulse at its output after a certain time.