DE3835338C2 - - Google Patents

Description

The invention relates to a method for transferring additives signals according to the preamble of claim 1.

With digital data transmission, it is necessary to add additional signals le, for example control signals or in multiplex systems Rah to transmit synchronizing signals. This will, however the continuous flow of data is interrupted and the additional signal inserted. However, this requires considerable effort Buffering and a complicated clock control, because of the data rate changes.

In the published patent application DE 35 26 052 A1 there is a message Transmission system described, each comprising n bits the data words in code words comprising n + 1 bits each Line codes are implemented. Every mth input word is switched through unchanged and by a bit of a synchronizer word added. Only after all bits have been transferred Synchronization word, synchronization is possible. Is too a buffer for storing the synchronization bits he conducive.

The object of the invention is a code-transparent method to specify the data transmission that the transmission of addition signals enabled.

This object is achieved by the specified in claim 1 Features solved.  

The low circuit complexity in the implementation is advantageous tion of this procedure. With some transmission media is before ago a so-called mB / nB block coding and it only code words with a certain minimum number of logical ones selected so that on the transmission medium there are no longer zero sequences of data bits. The one here redundancy that is usually available can be used to transfer special times Chen be exploited. Buffer and intermediate clocks are not mandatory. For the participant one points after this Process realized data connection transparency. As To set signals can (frame) synchronization signals or any Control characters are transmitted.  

It is advantageous that the data words all have the same word length and that the code words and the redundant code words all have the same length.

A synchronization signal can be transmitted here as an additional signal will. This gives the start of a pulse frame on the receiving side and thus also the correct assignment of the data signals to the Data channels and possibly also to the subchannels. The transmission of additional synchronization bits for a channel correct demultiplexing of the serial multiplex signal is not required. As the data rate changes due to the recoding is high, the method is particularly for optical transmission suitable for media such as glass fiber.

It is advantageous that the code words and the redundant code words each comprise at least one bit more than the data words.

If the word length of a code is only expanded by one bit, then it there are already twice the number of available code words tern. This makes it possible to replace a conventional codeword tes always a redundant code word that both the contains previous information as well as a special character. This is usually not necessary. So code words with certain spectral properties or certain code rules are selected, for example, only code words with egg a certain number of logical ones. It is enough mostly off when only a few or one of the Data words to which a redundant code word is assigned, the Special characters can be transferred. As a result, at gl redundancy transfer several different special characters will.

It is advantageous that the data words are scrambled and that only valid data words are generated by scrambling the.  

A scrambler makes it possible for ei nes constant data word always all data words with egg of a given probability, that is Special characters can also be used for permanent combinations - even if they are if necessary delayed - always be transmitted.

Further advantageous embodiments of the invention are in the ex other subclaims.

The method is explained in more detail using an exemplary embodiment purifies. It shows

Fig. 1 transmitting and receiving device of a multiplex system and

Fig. 2 shows a code table.

The transmission device shown in Fig. 1 contains the chain circuit of a scrambler SC, an encoder C0, a parallel / serial converter and an electro-optical converter. The receiving device consists essentially of an optoelectrical converter, a serial / parallel converter, a decoder DC and a descrambler DSC.

In this example, four digital data signals DS are transferred 1 to DS 4 through four data channels K 1 to K. 4 One bit of the four data signals is present at the inputs of encoder C0. The resulting 4-bit code word is converted into a 5-bit code word and fed to a parallel / serial converter, at whose output a serial multiplex signal MS is emitted. The electro-optical converter converts the electrical signal into an optical one. The upstream Scrambler SC ensures that all data words appear evenly. Control criteria supplied to the code converter CU effect the transmission of an additional signal ZS or a plurality of additional signals SYS, SS by transmitting a redundant code word RW instead of a code word CW.

This is explained in more detail using the code table in FIG. 2. One bit each of the data signals DS 1 to DS 4 form data words DW 1 to DW 16 which are fed to the code converter in parallel. This converts k = 16 data words into code words CW 1 to CW 16 , which here have the special feature that they each have two or three logical ones. There are twenty different combinations of these (code word range u = 20), two of which are eliminated due to excessively long null sequences. This leaves two redundant code words RW 1 and RW 2 , which can be used to transmit the additional signal. This is always possible when the data words DW 7 or DW 10 occur. The additional signal ZS here means a synchronous signal SYS which indicates the beginning of the pulse frame of the multiplex signal MS. In the case of a statistical uniform distribution of the data words, a synchro signal is recognized on average in every eighth frame. However, this is sufficient for synchronization. Of course, the code words can also be coded differently, so that the synchronizing signal is transmitted more frequently or, in addition to this, a control signal SS can also be transmitted as a further additional signal.

The receiving device shown in FIG. 1 converts the multiplex signal transmitted by means of optical pulses back into an electrical signal. This is again distributed over four data channels in the serial / parallel converter. In addition, the additional signal is obtained, which indicates the start of a frame synchronization. This then ensures appropriate control of the serial / parallel converter (demultiplexer). The five-digit code words are then converted back into four-digit data words in the decoder and, if appropriate, only distributed to the data channels after descrambling. If necessary, in addition to the synchronization signal, a further additional signal, the control signal SS, is emitted.

Claims (9)

1. Method for the transmission of additional signals (ZS) in digital data transmission, characterized in that
that a code with a larger code word range 1 <k is used to transmit k different data words (DW 1 to DW 16 ) and
that for the transmission of an additional signal (ZS) instead of at least one predetermined data word (DW 7 ) corresponding code word (CW 7 ) a redundant code word (RW 1 ) is transmitted, which also contains the additional signal (ZS) and that the receiving side as a data word (DW 7 ) and additional signal (ZS) is evaluated. 2. The method according to claim 1, characterized in that one of the data words (DW 1 to DW 16 ) is formed from each egg nem bit of several data signals (DS 1 to DS 16 ). 3. The method according to claim 2, characterized in that the code words (CW 1 to CW 16 ) and the redundant code words (RW 1 , RW 2 ) each comprise at least one bit more than the Da words (DW 1 to DW 16 ). 4. The method according to claim 3, characterized in that only code words (CW 1 to CW 16 ) and redundant code words (RW 1 , RW 2 ) are used with certain Hamming weights. 5. The method according to any one of the preceding claims, characterized in that the data words (DW 1 to DW 16 ) are scrambled and that only valid data words (DW 1 to DW 16 ) are generated by scrambling. 6. The method according to any one of the preceding claims, characterized, that a synchronization signal (SYN) is transmitted as an additional signal (ZS) will. 7. The method according to any one of the preceding claims, characterized in that several different additional signals (SYN, SS) are transmitted by means of several redundant code words (RW 1 , RW 2 ). 8. The method according to any one of the preceding claims, characterized, that several identical additional signals (ZS) are received, before a corresponding signal is processed further. 9. The method according to any one of the preceding claims 1 to 4 or 7 to 8, characterized in that in the case of unoccupied data channels (DK 1 to DK 4 ) a data word (DW 7 ) is continuously transmitted, to which a redundant code word (RW 1 ) is assigned can.