DE1027432B - Method for deciphering digits represented in the 5-digit telex alphabet - Google Patents

Description

GERMAN

The invention relates to a method for deciphering in a 5-digit alphabet, in particular the international telex alphabet, represented digits. In a 5-letter alphabet, each character consists of five Elements, where each element can have two different values. They are usually assigned the both values + and - to, where + z. B. Presence of electricity and - mean absence of electricity can. With these five drawing elements you can now create 32 different combinations of + and - form. When characters are transmitted, only those combinations are transmitted that have to be decrypted into the corresponding characters at the receiving location. The arrangements used for decryption, which generally consist of electronic switching elements, if the decryption is to be carried out quickly, in many cases they are based on the so-called Christmas tree system built up.

However, this system represents a great effort when it comes to the transmitted and decrypted Characters are only the digits 0 ... 9, as it is e.g. B. in connection with calculating machines using the punched card method or is generally the case with electrical calculators, which are represented in a 5-digit alphabet are. To simplify the decoding arrangement, one could now simply for each character omit one element, since a maximum of 16 combinations can be formed with four elements, but that is not possible if the digits are shown in the 5-digit alphabet of teletype technology, because it can be used The following table shows that none of the five elements can then be left out without being unambiguous to cancel the representation.

Tabel

from in the oer telex alphabet

represented digits

Applicant:

C. Lorenz Aktiengesellschaft,

S tuttgar t-Zuff enhaus en,

Hellmuth-Hirth-Str. 42

Dipl.-Ing. Helmut Gröttrup, Birkenfeld (Württ),
has been named as the inventor

1 2 I. II Ill IV V - I. 3 III II V _{+ +} I. III II V O 4- + + - - 4th J _ -III II V 1 _) _ 4- - - 4th I - -III I. - V 2 4- - 4- II IV 3 - 4- 4- 4- - -(H IV) - -I V 4th - - 4- - 4- I. III - -II V S. -j- - - - 4- I - -V II - V 6th 4- - J III II y 7th - 4- - - IV V 8th - - 4- + 9

In column 1 of the table are the digits 0 ... 9 and in column 2 the corresponding representation of the digits in the 5-digit alphabet according to the CCIT standards is shown. The five positions of the 5-letter alphabet are indicated by the Roman numerals I through V, while the Presence of an impulse in one of the positions through the sign + and the absence through the sign - is shown.

The purpose of the invention is to reduce the effort involved in deciphering decadic digits by means of electronic circuit elements which are represented in a 5-digit alphabet, in particular the international telex alphabet. The underlying idea is to use a maximum of only four characters of the five character elements of the individual digits for decryption. According to the invention, a first row of ten coincidence gates is provided, which respond to the simultaneous presence of two positive input pulses or a positive and a negative input pulse; Furthermore, one or two goals are selected, to which of each digit character to be deciphered, consisting of five elements, two or four selected character elements in one or two groups of two elements with a non-repeating combination of the elements for all ten digits, taking into account the position and the output signals of the gates of the first row are fed to one or more coincidence gates of a second row of ten gates, the outputs of which identify the digit to be decrypted.
An advantageous selection of the character elements to be used for decryption is summarized in column 3 of the table.

The invention has the advantage that the special combination of a maximum of four character elements to decipher a digit significantly fewer switching elements are required than with the usual decryption methods and that furthermore by suitable ones Selection of the character elements used for decryption makes the decryption arrangement extremely simple without affecting the uniqueness of the evaluation.

7C9 958/206

is footed. Furthermore, there are only a few different switching ■ elements necessary, which is also favorable from an economic point of view. Finally is too the delay time, which is only twice the amount of the delay of a coincidence gate, for all digits the same.

The invention is explained in more detail using the table and FIGS. 1 and 2, for example.

Fig. 1 shows the known switching elements that are required to carry out the decryption, In Fig. 1a shows a coincidence gate which generates an output signal when both inputs are at the same time a signal is present, while the coincidence gate of FIG. 1b generates no output signal when on pulses occur simultaneously on both input lines. The coincidence gate of Fig. Ic leaves everyone arriving Pulse through, but gives it a time delay which corresponds to the delay of the gates of FIGS. 1 a and 1 b.

Fig. 2 shows an arrangement for carrying out the method according to the invention. On the five input terminals c, which are designated with the Roman numerals from I to V corresponding to the five positions of the 5-digit alphabet, the digits belonging to a character of the 5-digit alphabet arrive at the same time and are fed to the first stage of the decoder d . In the ten switching elements of this first stage, pulses are formed, either when there is one pulse in each of two positions of the 5-digit alphabet or when there is a pulse in one position and there is no pulse in another position. The pulses emitted by the switching elements of the first stage are fed to the second stage, the ten switching elements of which are connected to the output terminals for the ten digits (designated by the Arabic digits from 0 to 9). The switching elements of the second stage generally have the same function as those of the first stage, that is to say they form a pulse when two impulses of the first stage which are characteristic of the relevant digit arrive or one of them does not occur. The switching elements that lead to the output terminals for the digits "4" and "9" are an exception. Since the pulse output of the corresponding switching elements of the first stage is characteristic of the digits, only one delay element is provided in the second stage.

For a better overview, in column 3 of the table are the The pulse combinations used for the individual digits are compiled. A minus sign before one (Roman) position designation means that there is no pulse in this position.

The circuit offers the following advantages over other possible circuits:

It gets by with a minimum of switching elements; the switching elements have relatively simple functions to meet, there are only a few different types of switching elements, and finally is the Delay time for all digits the same and only the same; double the amount of delay caused by a Switching element is caused.

Claims (1)

Patent claim Arrangement for decoding in a 5-digit alphabet, in particular the international telex alphabet, represented decadic digits by means of electronic circuit elements, thereby characterized in that a first row of ten coincidence gates is provided which are directed to the simultaneous Presence of two positive input pulses or one positive and one negative Address the input impulse, and one or two gates are selected, those of each digit character to be deciphered, consisting of five elements two or four selected drawing elements in one or two groups of two elements each with it for all ten digits, taking into account the position of the non-repeating combination of the elements are supplied, and that the output signals of the gates of the first row to one or several coincidence gates of a second row of ten gates are fed, the outputs of which to mark the deciphering digit. Considered publications:
Proc. of the IRE, October 1953, p. 1310;
U.S. Patent No. 2348171. 1 sheet of drawings © 70S 958/206 3.58