DE1225236B - Circuit arrangement for lengthening a pulse of a pulse train and / or a pulse pause - Google Patents

Description

Circuit arrangement for lengthening a pulse of a pulse train --- iind / or em'er pulse pause In remote control systems in which a pulse train of a constant number of pulses is always transmitted for the transmission of information, it is necessary to identify certain information ... to lengthen the pulse corresponding to this information within the given pulse sequence or to lengthen the pulse pause following the pulse. As a result, it is possible, by means of a pulse train, to transmit the same number of pulses # as much as 7 different pieces of information as this pulse train has pulse and pulse pauses.

The invention bezwmkt - allow the extension of a pulse or a pulse pause of such a pulse train in a simple manner zir. This is achieved by the fact that each of the outputs of a divider stage influenced by a pulse generator influences an AND stage via which a control signal, if present, is switched on. bistable Schaltälied is able to act - which temporarily blocks the divider stage in one of its positions. By temporarily blocking the. Divider stage is prolonged, the Däu6r of the just discharged 'pulse or the pulse pause just discharged. ".

# It is known for the frequency of activation of an pulse train; to periodically suppress some pulses by means of a counting chain - limited ranks, which correspond to some of the levels - the counting chain. This periodically creates a longer pause until the # or the next impulses not suppressed by - de'r 'are passed on. This known arrangement does not allow either to lengthen one of the pulses or lengthen one of the pulse pauses in a pulse train with a limited number of pulses.

An embodiment of the invention is shown in the drawings. It shows F i g.1 is a block diagram of the circuit arrangement according to the invention, F i g. 2 pulse trains - at the individual points of the circuit arrangement in FIG. 1. In the block diagram ( Fig. 1) the individual lines between the . Basic links marked with small letters. In the following description, these lower case letters apply - both to the individual lines and to - the pulse shapes occurring on these lines (see Fig. 2). A self-oscillating, astable multivibrator 2. delivers rectangular pulses a and - b at its -bziden - #, pulse outputsii '(Fig. 2). These two pulse trains a and b are polarized opposite to one another. From these two pulse sequences, # a and b can be derived by differentiation at # -entip-'re # ch # n_d.the suppression of the negative flanks_Na4drimpulsed and b ' .

'The Naddlimpulse run through an' AND ' circuit 3, ' which - 1 m - Rühezus'tand # 'of a bistable control stage .-' 9 via a * A.üsgaiäg-smarkierung on the line_ m on Durchfag is cold at- -the 'output_ of the, AND, - & haltuliig 3'#. present needle impulses n # kippeii diL- als'bistab'9'64Gp # stlife trained divider stage 4- opposite position '-Üd # t # bilen T # il, etstufe 4 is connected to the small output', the entire circuit arrangement ', From the one output'# of this bistable flip-flop 4, a right-hand-cld.üipulsfölge e , äbneliinbar, whose pulse repetition frequency in the case of sorinal is half as large as the dib frequency of the pulse generator 2. This normal case is indicated for the period I 1-P 1 (see the lowest pulse sequence e of: F i # g. .2).

It should be mentioned beforehand that the two bistable IGpp stages4 and 9r are designed in such a way that, after they have been inserted, the entire circuit arrangement is defined in one Initial state -being. This is: by the black bars at the exits e: or .., m indicated, whereby these, .. relevant exits, are marked in the initial, ie rest position.

Should now the length of the following output pulse be extended, i. That is, an Eiiigaügsmarkierung corresponding to the pulse shape c is applied to the input JV. This mark c then happens . the AND circuit 5, if by a marking in the output signal e of the bistable flip-flop 4 -der. Status of a pulse (as opposed to a pause) is displayed. DWUND circuit 5 is necessary - # so that the.

The output signal g of the AND circuit 5 passes through the OR circuit 7 and marked via line 1 to an input of the AND circuit 8. encountered during such a marking% a needle pulse b 'at the other input of the AND: circuit 8 a, so this needle pulse is allowed to pass and flips the bistable flip-flop 9 into the opposite position. This tipping over has the effect that the switching criterion of the AND circuit 3 connected to the output m marked in the idle state is removed and thus the subsequent needle pulse d is suppressed. Due to this lack of a need pulse at the input of the bistable flip-flop 4, the output pulse e is lengthened during the period J.2. The subsequent needle pulse b 'sets the bistable stage 9 - in .--., The - R.uhel # age-back via the AND circuit 8, which is still switched on by the signal e, so that the AND circuit 3 becomes permeable again.

Although the control criterion for pulse lengthening at the input JV is still applied during the subsequent pause P 2, this control criterion # can no longer have any influence on the control paths for blocking the AND circuit 3 , because line e no longer applies after the pause has been initiated is marked, and thus the AND circuit 5 is blocked for the criterion for pulse lengthening. For this reason, the subsequent spike can d over the 'switched-through Torschal "tung 3 - the bistable -Kippstufe 4 upset to release pause P2 -. A corresponding control criterion d extending the pause passes via the input PV applied to the AND circuit 6 . this aND circuit 6 is then transparent when by - a pause is displayed a corresponding mark on the line 1 the beginning in this case passes this marker h via the line and via the OR circuit 7 to the input of the aND. the following needle pulse circuit 8 so that b on the next spike 'the flip-flop 9 is tilted to the working position and the aND circuit 3 locked. d is -so suppressed, so that the bistable flip-flop 4 falls over only one pulse later, and thus the Pause P3 extended.

If control criteria are pending on the input lines JV and PV at the same time, then these two criteria reach the input i of the AND circuit 8 via the AND circuits 5 and 6 during the duration of a pulse or a pause. The bistable flip-flop 9 is then tilted twice into the working position by corresponding Nadefira pulses b ' during the pulse period J4-P4, so that the AND circuit 3 is blocked twice and -bzw to extend the pulses. Pauses in the output pulse sequence e suppressed certain needle pulses d (periods J4- and P4).

The in the F i g. 1 is of course only an embodiment. Instead of the bistable divider stage 4, a divider stage with more than two positions can be provided so that with appropriate control criteria at the inputs JV and PV not exactly a doubling of a pulse or a pulse pause takes place, but a corresponding extension by a smaller factor. It is also possible to use a sine wave generator with a downstream pulse shaper instead of the astable multivibrator 2 as a pulse generator. This Sinusgeneratox can be designed as a quartz oscillator to achieve a particularly high frequency level.

The pulse trains a and b of FIG. 2 of the pulse generator 2 can also have a shape deviating from the pulse duty factor 1: 1 , and two outputs with opposite polarities are not absolutely necessary.

In order to be able to switch the entire circuit arrangement to different signaling speeds, only the frequency of the pulse generator 2 needs to be switched. All other control circuits are frequency-independent.

The pulse generator 2 can also, eirgeschalteten state switched at certain times or off. This is done by means of a key level 1, which is controlled via an - input T. This tactile stage makes it possible to let the astable flip-flop stage 2 oscillate with a defined phase.

For reasons of clarity are in the described - embodiment DER F i g. 1 only those basic circuits have been used that all work with positive markings. In many cases, however, it may be better to reverse the polarity of a marker, e.g. B. to summarize several such basic circuits - and to be able to combine some with the flip-flops. These measures, however, are within the scope of professional trade and are therefore not detailed in the description.

However, reference should be made to an advantageous circuit variation in which, instead of the AND circuit 3, a blocking circuit is provided which does not allow the hnpulse d to pass when a marking is applied to the blocking input. In this case, this blocking input must be connected to the opposite output, i.e. the output of the bistable multivibrator 9 which is not marked in the idle state.

Claims (2)

Patent claims 1. Circuit arrangement for lengthening a pulse of a pulse train for signaling in remote control systems or the like and / or a pulse train using a pulse generator and a variable divider stage controlled by it, characterized in that each of the outputs (e, f ) the divider stage (4) influences an AND stage (5, 6) via which a control signal (JV, PY), if present, can act on a bistable switching element (9) which, in one of its positions, the divider stage (4) locks. . 2. Circuit arrangement- according to claim 1, characterized in -that of the two outputs, the direct output (a) and the inverse output (b), of the pulse generator (2) one the divider stage (4) and the other (b) one the AND stage (8 ) connected upstream of the bistable switching element (9) is able to influence and thereby limits the duration of a blocking of the divider stage (4) on the part of the bistable switching element (9) . 3. Circuit arrangement according to claim 1 and 2, characterized in that the pulse generator (2) is connected to a pulse shaper which converts its output pulses (a, b) into needle-shaped pulses (d, b ') . 4. Circuit arrangement according spoke 1 to 3, characterized in that the input of the divider stage (4) is at the output of an AND stage (3) , one input with the direct output (a) of the pulse generator and the other input with a in the idle state current-carrying output of the bistable switching element (9) is connected. Documents considered: German Auslegeschrift No. 1119 914.