DE1029031B - Method and circuit arrangement for equalization and amplification of pulse trains, especially for telegraph characters - Google Patents

Description

GERMAN

The invention relates to a method and a circuit arrangement for equalization and amplification of pulse trains, especially for telegraphic characters.

In telex technology, it is necessary to use the current step combinations for longer connections with several connection sections corrected by equalizing transformers switched on in the connection path, so that the Transmission distortions that occurred in the previous connection section are eliminated.

The processes and devices developed on the basis of this requirement were initially used for this purpose intermittently rotating organs that work similarly to the receiving part of a teleprinter. As Equalizing transformers known devices work on the basis of relays and / or tube circuits.

Here a circuit arrangement for equalizing telegraphy transmitters is known, in which after demodulation of the carrier, the telegraphy steps are fed to two separate equalization circuits each of which is provided for a frequency (symbol or crossover frequency). The distortion in question is determined on a special oscilloscope. The determined value serves as the basis for equalization, the degree of which is set manually. It is possible with this circuit arrangement not constant a single step, steps or characters with different distortion values to equalize evenly, since the operator concerned is not able to within 20ms read the distortion value and set the appropriate amount of equalization.

Also for constantly changing degrees of distortion, such as those in wired telegraphy systems in particular occur as a result of alternating voltage superimpositions, this circuit arrangement is not suitable. Thus, apart from the considerable expense, such an equalizer does not completely meet the requirements desired purpose.

It is also a circuit arrangement is known in which by means of a start-stop generator, which with the first current step of a current step combination is started, a certain number of pulses are generated with the same time interval. These impulses are sent to a modulator that adjusts them accordingly the polarity of the input times polt, supplied and then used to control an output stage, e.g. B. a multivibrator is used. The effort remains within acceptable limits, but it leads to the Rectifiers own scatter to difficulties in circuit construction.

The invention takes a path in which the

Procedure and circuit arrangement

for equalization and amplification

of pulse trains, in particular

for telegraph images

Applicant:

VEB Fernmeldewerk Arnstadt,
Arnstadt, Bierweg 6

Joachim Mehls, Berlin-Staaken,
has been named as the inventor

mentioned disadvantages are avoided and both determination of the degree of distortion and equalization happen automatically.

The invention is characterized in that the controlled by the incoming telegraphic characters Input circuit of an equalizer two separated in a known manner, the polarities of Current paths to be switched through to the output circuit corresponding to the steps of the telegraphic characters preparatory influenced, so that the generated by a pulse generator and both current paths simultaneously supplied pulses only that current path for the duration of a key pulse through which is assigned to the current polarity of a step of the input telegraphic character is; in other words: the one current path always equalizes only positive input pulses and the one other current path always only negative input pulses. As switching means in the current paths are suitable Glow diodes or electron tubes. It has proven to be advantageous to equalize the carry out negative and positive pulses up to the output circuit. As an output circuit a flip-flop circuit with two inputs is expediently used, the anode outputs work on a common output.

The method according to the invention is explained in more detail below with reference to FIGS. 1 to 3 an example of a circuit arrangement for carrying out the method is specified.

1 shows a block diagram of a circuit arrangement according to the invention.

The incoming telex characters are converted by the receiving relay ER . The first line

809 508/102

Chenstramstep of the converted characters starts a start-stop generator StG , which in turn starts a key pulse generator IG with a 10 ms delay. The pulse generator emits pulse pulses at intervals of 20 ms until it is stopped again by the start-stop generator.

The new pulses from the receiving relay ER are simultaneously fed to a two-way circuit with channels I and II. Channels I and II each consist of a tube circuit, one of which is blocked while the other is prepared for connection. The assignment of one or the other of the two processes to one or the other of the channels depends on the polarity of the converted characters, with one polarity always being assigned the same channel.

The pulses emitted by the pulse generator at intervals of 20 ms are offered to both channels at the same time, but only the channel prepared for through-connection is opened by means of a pulse for the duration of the pulse. The output circuit F connected to the channels is reversed in accordance with the brief opening of one or the other channel. The output circuit, in this case a flip-flop circuit, controls a transmitter relay SR. which returns the corrected characters to the line. The processes are to be explained in more detail with reference to the basic circuit diagram of FIG. 2; all switching elements which do not serve to understand the invention are omitted.

The first character current step of the pulse train excites the relay -Ei ?, and the armature e simultaneously applies negative potential to the cathode of the tube egg? O2 and the grid of the tube Röl as well as to the start-stop generator. As a result, the Röl tube is blocked and the Röl tube opened. Channel II with tube D 21 is then blocked and channel I with tube D 11 is prepared for connection. The voltages now applied to the glow diodes D 11 and D 21 are different, but smaller than the operating voltage of the diodes.

The voltage at PIl is greater than the voltage at D 21. The start-stop generator, which was started by means of the first drawing step. has started the pulse generator with a delay of 10 ms, which sends pulse pulses to the two channels at intervals of 20 ms. A pulse is always offered to both channels via the capacitors Ko 1 and Ko2 at the same time. The voltage across the diode DIl is so high that the additional pulse voltage is sufficient to ignite the tube for the duration of the pulse. At the diode D 21, the sum of the two voltages is not sufficient for this. so that the tube remains extinguished.

In channel I, the tube Ro 12 receives a positive pulse on the grid via the capacitor Ko 12. The tube Rö 12 is energized and excites the one winding SR 1 of the transmitter relay SR located in the anode circuit. The anchor s moves to the minus (character side). The voltage drops caused by an anode grid resistor combination R 2, i? 12 and i? Ll have the effect that the tube i? Oil2 remains in the current-carrying state, while the analog resistor combination Rl. R22 and i? 21 ensure that the tube i? Ö22 remains in the de-energized state. In principle, these processes are similar to those of a bistable Eccles-Jordan circuit. If the second current step is also a drawing step, channel I remains in standby. The next tactile impulse, which acts on the two channels after 20 ms, again causes a positive impulse on the grid of the tube Rö 12. The previously described state remains. Only when the polarity of the input character is changed, the channel II is prepared with the tube 21 and D channel I locked with the tube D11. The other processes are analogous to those previously described.

Because the key impulses 10 ms after the start of the start step, which is keyed by the £ i? Relay and then appear every 20 ms with great constancy, the output circuit in in this case a flip-flop, only every 20 ms or after a time which is an integral multiple thereof corresponds to be keyed. The output characters occur 10 ms compared to the input characters delayed at the output. are, however, since now the individual impulses z. B. 20 ms long and the unit step of a telegraphic character is also 20 ms, without distortion. For integer multiples of 20 ms, e.g. B. 40 ms, the same applies.

The accuracy of the equalization depends only on the time constancy of the pulse generator.

In Fig. 3, the rectification process of a teletype character is with a start step, five character steps and stop step shown. The impulses arriving in any shape are distorted With the help of the e-contact keyed into square-wave pulses, which, however, depend on the previous distortion in their temporal length are shifted (see. Fig. 3 a). The following distortions can be read from Fig. 3a:

Starting step

1st drawing step. .

2. Drawing step. .

3. Character letters. .

4. Character letters. .

5. Character letters. .
Stop step

no distortion

20% lagging distortion

no distortion

20% leading distortion

no distortion

no distortion

30% lagging distortion

The opening and closing times of the start-stop generator can be seen from FIG. 3 b. The start-stop generator is always started at the beginning of the start step and stopped exactly after 130ms; this With an undistorted telex character, the point in time is always in the middle of the stop step.

Fig. 3c shows the pulses occurring at the output of the pulse generator. These control the both channels I and II. In the middle of a reference character step, a touch pulse is applied to both Channels given.

FIG. 3 d shows an equalized teletype character corresponding to FIG. 3 a, which is given to the output with the aid of the .i contact. Since the j-contact only switches when a key pulse switches through a current path, the first pulse at the output occurs 10 ms after the first input pulse has arrived, i.e. after half a step length. All further impulses follow at an interval of 20 ms or an integral multiple thereof. Except for the slight distortion of the relay SR, the output characters can be regarded as practically equalized.

The input characters can be distorted by up to + 50%. According to the method according to the invention Teletype characters can be rectified with a simple and extended stop step.

If such characters are corrected, the opening time of the start-stop generator, as already mentioned, is 130ms and the pulse repetition frequency 50Hz (see Fig. 3).

Both the start-stop generator and the pulse generator can be used for other pulse trains set to other values.

Claims (3)

Claims 1. Method for the automatic equalization and amplification of pulse trains, in particular of Telegraph sign. in which the influencing of the output circuit of an equalizer over two separated from each other, assigned according to the polarities of the steps of a telegraphic character and current paths blocking the output circuit in the idle state are carried out with the aid of a start-stop generator pulse generator set in action for the duration of a pulse train, characterized in that, that the input circuit controlled by the incoming telegraphic characters prepares the two current paths (I, II), so that the generated by the pulse generator and supplied to both current paths at the same time Push-button pulses only switch through that current path for the duration of a push-button pulse that is associated with the current polarity of a step of the input telegraphic character. 2. Circuit arrangement for performing the method according to claim 1, characterized in that that in the two current paths as blocking switching elements glow diodes or electron tubes are provided. 3. Circuit arrangement for performing the method according to claim 1, characterized in that that the two separate current paths of a flip-flop circuit constructed according to Eccles-Jordan are supplied with two inputs, which works as an output circuit. Considered publications:
German patent specification No. 858 851. 1 sheet of drawings © 809 508/102 4.58