DE753636C - Device for alternating current telegraphy systems which use the same frequency for character and separating current steps - Google Patents

Description

Facility for AC telegraph systems used for sign and ° Separating current steps use the same frequency There are already different ones AC telegraphy systems have been known or proposed in which for Character and separator current steps the same frequency. is used. A significant one Difficulty with these systems is that on the receiving side initially one there must be a clear criterion for the type of incoming character, since the individual signs themselves cannot be deduced from their complete equality is whether they represent a drawing or a separating step; should. This difficulty is remedied in the various proposed transmission systems by that to identify the different steps at the beginning and end of each stream step, d. H. in each case at the transition from the drawing to the separating step and vice versa, the Transmission serving carrier stream subjected to a temporary change of state. is, wherein the receiving devices are designed so that according to these Changes in state of the value of the actuation current at the beginning and end of the current steps changes impulsively in different directions. These Change of state is used in the various systems. effected in the most varied of ways. So is z. B. a system has been proposed in which the beginning of a character and. an isolating current step by means of a pulsed change in the carrier current amplitude by a certain value, once by increasing it, the other time characterized by a corresponding reduction in the amplitude of the carrier current is. Another system works with a certain phase shift between Character and separating current step, with a device for frequency demodulation on the receiving side is used. Other systems of phase telegraphy work on the receiving side with a comparison of the phase position of the incoming characters with a reference phase.

However, all these systems have the disadvantage that interference, for example in, a change in the carrier current amplitude or in a change in the frequency of the carrier, cause an undesirable direct current component on the receiving side, which results in a one-sided distortion of the characters. So @ must z. B. at one Process in which the characters are transmitted with different phase positions and in the receiver are subjected to frequency demodulation, the mean output current of the frequency demodulator, which corresponds to the carrier frequency. be compensated. With frequency fluctuations the mean value of the output current changes, so that the compensation current is held the mentioned character distortions arise. The situation is very similar in the case of the transmission system that changes the carrier current amplitude in a pulsed manner is working. Here, too, there is an average direct current component at the output of the demodulator, which must be compensated. If you now see the amplitude of the carrier quiescent current, this creates a compensation current when the compensation current is held. the same character distortions: as in the described system of phase telegraphy.

Finally, in such systems of phase telegraphy, in which. A phase comparison is carried out at the receiving end, occurs in the event of frequency fluctuations in: the one present in the receiver and tuned to the predetermined frequency Filter circles already at low; Frequency changes a significant phase shift, those in the output of the phase comparison circuit, which normally does not emit any current, causes a direct current component, which also causes distortion of the characters Consequence.

The invention is based on the object for alternating current telegraphy systems, which use the same frequency for character and separation current steps, and at which the identification of these steps by means of a brief change of state each of the transmission stream takes place at the beginning and end of each stream step, a device to create, through which a character distortion as a result of the above-mentioned disturbances is avoided. According to the invention this is achieved in that at the output of the carrier current receiver (Demodulator, phase comparison circuit) from the setting current for the polarized receiving relay, a direct current is derived by electrical separation whose size corresponds to the respective mean value of the actuating current, and that this direct current is used as a compensation current for the: mean value of the actuation current is used. The generation of this direct current, which serves as a compensation current. takes place advantageously in such a way that the actuating current for the receiving relay is fed to a further winding of the receiving relay even after smoothing, in such a way that the mean value of the present in the first winding Actuating current is compensated. The essence of the invention is set out below Hand of the illustrations are briefly explained, and only in application a transfer: s, ysem, called the character and separating current steps through wave trains the same: frequency, however, are transmitted with different phase position and in which a device for frequency demodulation is used at the receiving end.

In Fig.ia the characteristic curve of a frequency demodulator is shown while Fig. I b the formation of the telegraphic characters in the course of the transmission in four Diagrams I to IV shows. The double current characters supplied by the transmitter relay, shown in diagram I are used to phase shift the carrier current used for transmission, in such a way that this is carried out at Transfer of a character stream step the phase rpz, when transferring a separating current step the phase -T1 opens, disappears (diagram II). The transition from a phase position to the others are now not erratic, but rather as a result of the ones in the transmission path Filter steadily. This has. the result that at the output of the receiving filter for each Transition from a drawing step to a separating step and vice versa a temporary one short-term frequency change in a negative or positive sense occurs (diagram 11I). These frequency changes are evaluated in the frequency demodulator. In the Carrier frequency f, results in an output current 1o, so there, ß yourself when transferring from. Telegraphic characters according to the method described above the curve shown in diagram IV for the: actuation current iR results. According to the invention Now the output of the frequency demodulator also produces a direct current of the value To derived, for example, by interposing a sieve chain with a very deep one Cutoff frequency over which the character pulses are not transmitted. This stream is used as a compensation current for the actuating current iR of the receiving relay, . whose mean value is also To. If the carrier frequency fluctuates, change it the mean value of iR and the compensation current in the same way, so that no more distortions can occur.

A particularly simple circuit is obtained when the actuation current of the receiving relay after smoothing a further winding of the receiving relay as Compensation current is supplied. Fig. 2 shows an exemplary embodiment for this: Circuit. The output current of the frequency demodulator D flows through one after the other the windings I and II of the receiving relay ER, whereby through the resistor R and the capacitor C is reached, .that in the winding II only the mean value of the. Actuating current comes into effect and an alternating, drum-like load on the winding II cannot "occur.

Claims (3)

PATENT CLAIMS: i. Facility for. AC telegraph systems, .which use the same frequency for character and separator current steps and where the marking. of these steps through a brief change in the state of the Transmission current. takes place at the beginning and end of each character, characterized by that at the output of the carrier current receiver (demodulator., phase comparison: sschaltun.g) of the setting current for the polarized receiving relay a direct current is derived by electrical separation, the size of which is the respective Corresponds to the mean value of the actuating current, and that, this direct current as compensation current is used for the mean value of the actuating current. 2. Device according to claim i, characterized in that .the derivation of the compensation direct current through Activation of a filter chain with a very low cut-off frequency between the demodulator and the receiving relay is achieved. 3. Device according to claim i, thereby, through characterized in that the actuating current for the receiving relay. even without smoothing is fed to another winding of the receiving relay in such a way that d, the one ate in the first; Winding compensates for the mean value of the actuating current will. To differentiate the subject matter of the invention from the state of the art, the granting process is in progress the following document has been considered: French patent specification. No. 794 276.