DE1152277B - Process for the serial display of digital information - Google Patents

Description

Process for the serial display of digital information For education, Transmission and storage of digital information in series or one Partial series display that only requires one channel are different methods known. A common practice for representing each digit associated information content, such as B. Numbers, is the use of discrete similar "bits", their electrical representatives with similar impulses a rising and a falling edge are. Assigned in the information value points The same time periods can be used according to the known method of the place values z. B. represent by the number of occurring or non-occurring pulses, binary values "L" or "0", for example, through the appearance or non-appearance of an impulse. Furthermore, representations by impulses or magnetizations are different Polarity known, and it was also the phase position of pulses of the same or different polarity within the digit time interval for display used. The use of pulse groups with pulses of different duration is known from Morse code and other telegraph codes.

Advantages over the pulse method, especially with regard to the The well-known NRZ (»Non Return to Zero «) - procedure for binary magnetic recording, in which the impulses insofar lose their individuality, as between the vertices of the same directional impulses no more "waste to zero" takes place. As a criterion for the content of the binary Information is used here to switch between two states in connection with a clock, which in turn has the same time intervals for the individual information value points delimits. A change at the end of such an interval can e.g. B. mean that a change between "0" and "L" or vice versa takes place, or with a different one well-known procedures that an "L" follows, correspondingly means absence a change either that the information remains unchanged in the following interval remains, or in the second case, that a "0" occurs. As long as values in the first case »0« or »L«, in the second case values »0« follow one another, no signal occurs.

This has the disadvantage that special signals are required to keep the clock for the identification of the information. In many cases, however, it is desirable to be able to infer the clock in each case from the information signals themselves.

A method with partial NRZ character is known in which that is possible. With this method, which amounts to a phase modulation, occurs at a certain phase within the equidistant clock intervals Change of state either in one direction (»0«) or the other direction (»L«). If there is a sequence of the same values, »0« or »L« lies between the above Change each time a second change, and that goes back to the properties the representation given by individual impulses.

The invention proposes a method for serial display of digital Information that demonstrates the simplicity and advantages of a pure NRZ representation connects with the possibility, from the information signals in each case at the same time also to take the clock. The procedure consists of having different units the information by varying the length of time between state changes that mark the end of and at the same time the beginning of a following information unit, being represented. In particular, dual information units "0" and "L" should by changing between two states and different duration of each induced state are represented.

The drawing shows an exemplary embodiment for binary in the timing diagram Series representation according to the invention. "0" is replaced by a shorter one and "L" followed by longer duration of the state that exists between two changes of state is shown. A change of state to the other possible state represents the end of a Information unit and at the same time the beginning of the next Unit. Each information unit is one and only one »impulse« formed by NRZ jumps assigned.

The short impulses will be made so short that they are certain can still be transmitted and the long ones only last so much longer that they can be with certainty can be distinguished from the short pulses. In all cases where one knows that "0" and "L" do not occur equally often, one becomes the short impulse assign to the more frequently occurring character.

A final character is expediently provided, which is preceded by a longer impulse than the "long impulse" is formed. To recognize the information content monostable flip-flops can be used whose dwell time in the astable State is longer than the short pulses and shorter than the long pulses. Falls into the dwell time of such a flip-flop triggered by a state jump if there is another state jump, then, in the selected example, there is a "0", otherwise an "L". Any longer character impulses that are provided can be based on the same principle to be discriminated.

The specified method is particularly suitable as a magnetic writing method. The state changes can of course also be electrical, optical or other Be kind.

Since each information unit is assigned a change of state, no special signals are required for clock generation. Downstream evaluation units can be force-controlled by means of the information itself.

Claims (5)

PATENT CLAIMS: 1. Method for serial display of digital Information, characterized in that different units of information due to different length of time between changes in state that lead to the end of a and at the same time mark the beginning of a following information unit will. 2. The method according to claim 1, characterized in that dual information units »0« and »L« by changing between two states and different durations of the the state brought about by this can be represented. 3. Procedure according to Claim 2, characterized in that an information final character by a third different duration of the respective state is determined. 4. Procedure according to any one of claims 1 to 3; characterized by the use of monostable flip-flops to differentiate between the information units. 5. The method according to any one of the claims 1 to 4, characterized in that the state changes are evaluated as pulse pulses will.