DE1053555B - Electronic step sequence evaluator for telex systems - Google Patents

Description

GERMAN

The invention serves the purpose of teletype technology to replace conventional mechanical selection device with an electrical arrangement. This consists of a combination of circuits known per se to form a new type of step sequence evaluator, which, in addition to the highest level of economy in construction, offers the opportunity to gain the knowledge of modern news theory to put into practice in a simple manner. The invention creates the possibility that in telex receiving systems usually one after the other, i.e. in series form to store incoming single pulses of a character briefly and to evaluate them in such a way that in each case a signal arises on an output line determined by the sequence of steps, which z. B. Impression devices can operate.

The known telex receiving systems use to transform the incoming sequence of steps in characters mainly purely mechanical components. These components represent, including the majority of the Sources of error in the overall system are, as with the required high writing speeds, a are subject to severe wear and tear. According to the invention, a variety of mechanical components is through replaces an electrical circuit that works with practically no wear and tear and whose maximum operating speed is well above that normally required Value lies. In addition, the electronic system works completely silently. Electronic arrangements, with the help of which step combinations are evaluated are known per se. you will be for example to recode telegraphic characters used.

The step sequence evaluator according to the invention, on the other hand, is characterized in that a combination of circuits known per se is used, which consists of an electronic ring counter, the number of stages of which corresponds to the maximum number of steps of a telegraphic character, and each stage of which controls a bistable storage stage assigned to it in such a way that it can only be influenced by the incoming series steps of a telegraphic character if the associated ring counter stage is in the switching state that differs from the other stages. An electronic ring counter is understood to mean a multi-stage circuit, the individual stages of which are bistable and are coupled to one another in such a way that all ring counter stages with one exception are in the same switching state, but the excluded stage is in the other. The impulses supplied by the individual stages of the ring counter are switched over in such a way that the "state of exception" moves on one stage at a time. Electronic step sequence evaluators can be used as bistable storage stages
for telex systems

Applicant:

Dr. phil. habil. Oskar Vierling,
Ebermannstadt (OFr.), Pretzfeider Str. 174

Dipl.-Phys. Wolfgang Peuser

and Dr. phil. habil. Oskar Vierling,

Ebermannstadt (OFr.),
have been named as inventors

all known »flip-flop circuits are used that via a gate circuit, which can be set up with the help of diodes, in a ready for storage or a locked state can be set.

After a complete combination of steps has arrived, the status of the memory levels shows the Type of telegraphic character received. According to the further development of the invention is through this bistable storage stages a register formed from active or passive components is controlled. From the last counting level, pulses can be derived, possibly via delay elements Trigger printing. This is preferably done with an impression device of a known type. At the same time as the printing process, all memory levels should be in the Rest position can be controlled. The pulse sequence evaluator experiences a particularly advantageous design, if ring counters and storage stages with semiconductor arrangements, especially transistors, are constructed, while the register circuit consists of diodes and resistors. This register circuit can also be designed so that it is also used in the shaping of the transmission steps can be.

An example of an arrangement according to the invention is shown in the drawing. she shows a. Step sequence evaluator for three-digit step combinations. The extension of the device for evaluation Multi-digit step sequences are easily possible according to the given scheme. In the figure

809 787/227

the incoming three-step sequence arrives at the step reverser marked 1. In this, the steps that have arrived are transformed into steps of the same polarity. These individual steps now change the ring counter stages 2, 3 and 4 one after the other. However, the pulses are also sent to the storage stages 5, 6 and 7 at the same time with their correct sign. In the idle state, these storage levels are insensitive to incoming steps. They only become sensitive when they are supplied with an auxiliary voltage from the associated ring counter stage. Depending on the polarity of the incoming pulses, the storage stages 5, 6 and 7 are either left in their state or switched over one after the other. The current switching status of these stages is a true reflection of the one that has arrived. Step sequences. The step combination shown in the top left of the figure would have z. B. causes levels 5 and 7 to assume one switching state, level 6 the other. As is known, this switching state is retained by bistable circuits and by individual components; embodies occurring tensions. From the stage 5 could after arrival of the drawn 'pulse train z. B. a positive voltage, from stage 6 einie negative, from stage 7 in turn a positive voltage can be taken against any fixed potential of the circuit. These voltages are used to open or block diodes. For example, diode 9 is opened by the positive voltage from stage 5, while diode 10 is blocked. Correspondingly, the opening and blocking takes place with several diodes each through stages 6 and 7. As can be easily seen, stages 5, 6 and 7 switch exactly one path from generator 8 to outputs 11, ie at only one of the outputs there is voltage when the generator 8 is switched on. In the example given, the generator 8 is only supplied with operating voltage in pulses. This pulse is derived from the last stage of the counting chain, stage 4, via a delay element 12. This ensures that the path from the generator 8 to the output 11 is only used when the three switching stages 5, 6 and 7 are in the correct state. From output 11, the alternating current pulse is fed to the pull magnet of an impression device, by means of which the type lever is actuated.

Claims (7)

Claim: 1. Electronic step sequence evaluator for teleprinting systems for converting incoming series pulses into pulses on an output line selected from a large, preferably given by the code used maximum number (11), characterized in that a combination of known circuits is used, which consists of an electronic There is a ring counter (2, 3, 4), the number of stages of which corresponds to the maximum number of steps of a telegraphic character and each stage of which controls a bistable storage stage (5, 6, 7) assigned to it in such a way that it can only be influenced by the incoming series steps of a telegraphic character is when the associated ring counter stage (e.g. S) is in the switching state that differs from the other stages (e.g. 2, 4). 2. Arrangement according to claim 1, characterized in that the bistable memory stages (5j 6, 7) one of active or passive components Control formed register (9, K), 11). 3. Arrangement according to claim 1 and 2, characterized in that from the last counting stage (4) Derived impulses, possibly via delay elements (12), trigger the printing process. 4. Arrangement according to claim 1 to 3, characterized in that simultaneously with the printing process all storage levels can be switched to the rest position. 5. Arrangement according to claim 1 to 4, characterized in that ring counter and memory stages are constructed with semiconductor arrangements, in particular transistors. 6. Arrangement according to claim 1 to 5, characterized in that the Regis.terschaltung consists of diodes and resistors is built up. 7. Arrangement according to claim 1 to 6, characterized in that it is used to control an Abdruckvorri-rect is used. Considered publications:
German patent specifications No. 964 514, 1 000 857. 1 sheet of drawings ® 809 787/227 3.