DE862767C - Circuit arrangement for converting amplitude-modulated short pulses into voltage-proportional long pulses - Google Patents

Description

Circuit arrangement for transforming amplitude-modulated short pulses in voltage-proportional long pulses In many switching arrangements, especially for tube-saving pulse modulation methods, very narrow amplitude-modulated ones are obtained periodic impulses. It is desirable to have these pulses substantially without amplitude distortion to widen them in order to then transform them into length-modulated or time-modulated pulses to be able to. The usual multivibrator circuits are unsuitable for this purpose, because they overstate themselves and therefore provide impulses, their height only slightly depends on the control voltage.

An arrangement according to Fig. I serves to solve the problem. which already for integrating phase modulated pulses has been proposed. A similar arrangement is used to convert phase modulated pulses into width modulated pulses using partially overlapping gate pulses already known. The task posed here is significantly different from it.

The arrangement according to the invention consists of two diode sections D "D2 connected in series in the same direction, a capacitor Co (Fig. I), which is on the one hand at the fixed potential, on the other hand at the connection point of the two diodes, and coupling elements Cl, Ri, C2Y R2, preferably a smaller time constant for The impulses to be lengthened are supplied via the one diode path and a sequence of auxiliary pulses of opposite polarity interposed at a given time interval via the other diode path to the capacitor C., from which the lengthened pulses are picked up.

The mode of operation of the arrangement in solving the problem will be explained using an example. In a system for the transmission of several messages by means of time-staggered pulse trains, short amplitude-modulated pulses of half a modulated common channel are to be converted into amplitude-proportional long pulses. Half a sum channel contains only the even-numbered or only the odd-numbered pulse trains in order to ensure sufficient spacing between the long pulses. A pulse of half a modulated sum channel of positive polarity a reaches the diode DJ via a capacitor Ci with bleeder resistor R, finds it conductive and charges the capacitor Co to a value corresponding to its voltage. The diode D ' then becomes non-conductive again. The capacitor C remains, since no leakage resistor is provided, on the same state of charge and is only restored to the original one by a negative periodic auxiliary pulse b of constant voltage, which is applied to the other diode path via a coupling element C2, R2 with a low time constant , brought the voltage of the auxiliary pulse corresponding potential. Another negative pulse has no effect, because the capacitor Co is already at this potential. This is followed by the next positive pulse of half the sum channel, which charges Co to a corresponding positive potential. etc. The meandering voltage curve c arising at the capacitor C i contains the desired amplitude-proportional long pulses which have to be drawn off with as little power as possible.

An example of the voltage curve over time is given in Fig. 2.

It is evident that for reversed polarity of the two pulse trains only the connections to the two diode lines have to be exchanged; it surrender long pulses of opposite polarity.

It is a major advantage over other existing procedures that the maximum duration is determined by the clear limitation of the trailing edges is.

Instead of one or both diodes, other directional guides, e.g. B. rectifiers, detectors, can be used if the blocking resistance is high enough have, or controlled electron tubes or discharge paths. The order is simplified if both diodes, directional conductors or controlled tubes are inside of the same discharge space are arranged. As coupling members are z. Belly transformers or chokes, possibly also in connection with other switching elements, usable.

The arrangement according to Fig. 3 is mentioned as an application example. Amplitude-modulated short pulses of the positive half sum channel are, for example, depending on polarity, fed to the grid or the cathode of an electron tube V, picked up as a positive pulse train at its anode and fed to the arrangement described. The extended pulses must be removed from C, without power and are therefore fed to the control grid of the tubes V2, removed again at their anode and control tube V via the differentiating element C ", R, as voltage-proportional saw teeth Short pulses: Between these, the pulses of the second half sum channel, which are treated in the same way in a second switching arrangement, are inserted and this new sum channel, after appropriate amplification, is passed over the transmission path.

There are also valuable application possibilities on the receiving side; the arrangement corresponds to the previous one with the difference that the widened ones Pulses are sorted out and evaluated and the modulation content is extracted.

Another possible application arises for measuring purposes, where a greater energy content of the impulses is desired.

Claims (1)

PATENT APPROACH-i. Circuit arrangement for converting amplitude-modulated short pulses into voltage-proportional long pulse pulses, characterized by two diode sections (D1, D2) connected in series in the same direction, a capacitor (C.), which is connected to the fixed potential on the one hand, and to the connection point of the two diodes on the other hand, and coupling elements, preferably smaller Time constant (C1, Rl, C2, R.) for supplying the pulses to be extended (a) via one diode path, (D-,) as well as a sequence of auxiliary pulses (b) of opposite polarity in a given time interval between them via the other diode path (D2 ) to the capacitor (CO), from which the extended pulses are picked up. : 2. Circuit arrangement according to Claim i, characterized in that one or both diode sections are provided by directional conductors, e.g. B. rectifiers, detectors, crystal diodes are replaced. 3. Circuit arrangement according to Claim i, characterized in that controlled electron tubes or discharge paths are used instead of one or both diodes. 4- circuit arrangement according to claims i to 3, characterized by its use for measuring purposes.