SE423956B - PROCEDURE FOR DATA TRANSFER IN START-STOP OPERATION - Google Patents

Description

7711841-2 Duration of the 0 signal one time unit, duration of the 1 signal three time units, duration of the block synchronizing signal six time units.

The extremely frequent signal changes during pulse length modulation facilitate step synchronization. A disadvantage of this type of modulation is the large telegram length. A further disadvantage is the strong variation of the telegram length depending on the proportion of l-signals.

Substantially equal interference safety at significantly shorter telegram lengths allows systematic codes, for example cyclic codes (BCH codes). An optionally long, code-transparent data block is added to a correction character of a fixed length. The length of the correction character immediately provides information about the length of the perceptible bundle source sources and together with the length of the data block, about the achieved Hamming distance d. . Due to the large transparent area in the data block, a synchronization over special synchronization words is generally not advantageous, but if a special character is still used for the block synchronization, this can due to the generally binary nature of the transmission channel only be distinguished by different durations in relation to the 1 and 0 characters. Through this measure, the permissible character distortion generally decreases, so that at extremely high, as permissible requirements, character distortions, the telegraph speed (step duration) must be reduced. As a result, the efficiency of this coding scheme decreases. Since only relatively few (in the borderline case only two) character changes are available for synchronization, further problems arise here.

By code spreading, ie. by distributing the redundancy over the data word, the number of signal changes within a certain time duration can be increased and the transparency range reduced. This facilitates both block synchronization and step synchronization, in both cases, however, at the cost of the efficient transmission speed.

The object of the invention is to provide a method for data transmission, which provides synchronization of the data block (block synchronization) and synchronization of the separate steps (step synchronization), which enables securing of an optional long data block and allows efficient transmission speed of the telegram. is achieved by the method according to the invention obtaining the characteristics stated in claim 1. 7711841-2 The block and step synchronization is ensured in the first sub-telegram by relatively simple means. Since the disadvantages of a length modulation, namely the telegram duration depending on the content of the telegram and a less efficient data flow, only apply to the small area of the first sub-telegram, these have no significance. The length information of the second telegram part is in itself secured by the length-modulated, first sub-telegram, but in a simple way additional characters can be built in to increase this security. This first part is joined by the actual data part with variable length, which can be optimally secured with the aid of a cyclic code. For the entire telegram, isochronous character distortions of up to 50% are allowed.

Fig. 1 schematically shows the shape of the telegram to be transmitted. The data telegram to be transmitted can be produced, transmitted and received in a somewhat varied form by the transmitter and receiver device, which is previously known from German patent application P 24 57 794. The data telegram to be transmitted is split into a pulse length modulated sub - telegram 1 and into a sub - telegram 2, which comprises the variable length data part. The first sub-telegram 1 is pulse length modulated. It starts with a start character duration 3 of six time units. To this is added the length information 4. It is formed by a short character duration (0-step) of one time unit and a long character duration (1-step) of three time units.

The duration To of the smallest step is plotted in Fig. 1. To is defined as: 1 / step speed. In the case of a pulse length modulation, there is also the possibility of a non-integer ratio between the separate steps of the pulse length modulation. The length information is in itself secured by the length modulated, first sub-telegram, but in a simple way additional characters can be built in to increase this security. These characters are added to the length information. The first sub-telegram 1 ends with an end sign 5. Between the first sub-telegram 1 and the second sub-telegram 2 there is a dividing stage 6, to which the data part 7 of the second sub-telegram connects. The data part 7 contains, corresponding to the length entered in the first sub-telegram, a certain number of smallest data units of, for example, 8 bits each (8 bits = 1 byte). In the following cases, for example, the data part 7 must contain an information of 56 bits = 7 bytes, ie a data part lasting for 56 time units. Data to be transmitted are secured by control characters 8, which are to be transmitted, for example a cyclic code.

The number of control characters 8 to be transmitted depends on the number of pieces of information 7 to be transmitted, as well as the desired transmission security. In the same way as the securing of the data bits, the length information 4 in the subprogram 1 can also be secured. The second sub-telegram 2 ends with an end sign 9.

As mentioned above, the length of the data part 7 can be kept variable and is not limited to 56 bits used in the example.

The forms of code security chosen here, such as length modulation and BCH coding, should be considered as examples only. Instead of the described length modulation with different step durations, one with a constant step duration or a two-phase code can also be used instead. The only important thing here is that the code used offers numerous signal changes and through a special signal facilitates block synchronization.

Claims (3)

7711841-2 P a t e n t k r a v. 1. A method for data transmission in start-stop operation (asynchronous operation), wherein the telegram intended for transmission comprises at least two sub-telegrams and the first sub-telegram always has a constant length, characterized in that the first sub-telegram is pulse length modulated and formed by at least one start character. , a short character and a long character, that the information is recorded over the length of the data part of the first sub-telegram included in the second sub-telegram, and to secure the second sub-telegram a cyclic code is added thereto, and that synchronization of the second sub-telegram through the first sub-telegram and both the first and second sub-telegrams are terminated by an end sign. Method according to claim 1, characterized in that the first sub-telegram is formed by a start character duration of six time units, a short duration (0-step) and a time unit and a long character duration (1-step) of three time units. Method according to Claim 1 or 2, characterized in that the second sub-telegram, in accordance with the length specified in the first sub-telegram, is provided with a certain number of minimum data units of 8 bits each (= 1 byte) and that the second sub-telegram after an arbitration step is connected to the first sub-telegram. PROMISED PUBLICATIONS: Tyskïand 1 298 556 (HÛ3K 13/24) Other publications: Telegrafentechník II, Digitale übertragungstechnik 1968, p. 47.