DE892909C - Method for keying a transmitter for phase telegraphy - Google Patents

Description

Method for keying a transmitter for phase telegraphy For the transmission of telegraphic characters by means of alternating currents, in particular by means of carrier currents, various methods have already been proposed in which character and separating current steps are transmitted at the same frequency and a distinction between these characters is made possible by the fact that the two current steps a different phase is allocated on the transmission side. The keying of the alternating current, which has hitherto been common in such a transmission system, is shown in Fig. I. The upper terminal is supplied with the alternating current with a phase q # l, the lower terminal with the same alternating current with one phase (p2. The freely selectable phase difference between gpl and 992 remains constant. Both phases are now through the contact sk des The transmission relay is alternately connected to the transmission filter SF and thus to the transmission line. This arrangement has the disadvantage that during the transition time t "of the transmission relay there is no current at the armature sk of the same the timing diagram in Fig. 2 shows, is interrupted again as soon as the contact closure is established on the other contact side at time B and the new phase begins, which in turn causes a transient process, the course of which is largely dependent on the phase position at time B. This As a result, the transient process can be very different However, total is a prerequisite for phase telegraphy for as much as possible. great freedom from distortion.

The object of the present invention is that of the phase telegraphy the irregularities of the input caused by the described scanning process. swing to improve the process and thus to achieve greater freedom from distortion. This is achieved according to the invention "that during the turnover time of the Transmit relay at its armature a certain, between the for character and separating current phases used, a horizontal phase is applied, preferably the middle phase between character and separator stream. In this way, the otherwise at time B incipient transient process when turning the armature prepared, so to speak, whereby a substantial improvement in the uniformity of this process is achieved.

The intermediate phase can thereby be produced in a simple manner be that, as shown in the circuit of Fig. 3, the two contacts of the transmitter relay bridged by ohmic resistances. With the same values this Resistances is due to the transmission filter during the transition time of the transmission contact Middle phase 1 '' 1 '= from phases 971 and -99, for separator and 2 character stream. The phase relationships present in the arrangement according to the invention are shown in FIG Fig.q. shown. The phases shown in dashed lines correspond to previously common keying (see Fig. i). By bridging the send contact the phase deviation (9p1-972) is reduced by the resistors, as it is also applied of the anchor, for example at the isolating contact, part of the character phases at the anchor of the Transmission relay is so that in the arrangement according to the invention there is a phase deviation 991'-992 'trains. Should the phase deviation therefore be the same. as with the previous one Keying method, one must determine the phase shift between the voltages supplied enlarge accordingly.

In a previously proposed transmission system for phase telegraphy, a phase shift of A99 = 99, -992 = 90 'was provided as particularly expedient. If one also wants to work with A q7 = 90 ° in the scanning method according to the invention, this means that the phases of the voltages supplied to the transmitting contact must have a phase shift 971-972> 90 °. A simple circuit to achieve such a phase shift is shown in Fig. 5. The alternating voltage to be sampled is fed to a transformer, the secondary winding of which consists of two identical and co-directional partial windings. There are then two equal voltages between AC and BC, which have a phase shift of 180 °. While one partial voltage is applied to the isolating contact of the transmitter relay via a voltage divider formed from two resistors R1 and R2, the other is applied to the sign contact via a capacitor resistor R3 Cl, which causes a phase shift of d q7 "<90 ° '. The two partial voltages, which can be made equal to one another by appropriate dimensioning of the RC element, then have a total phase difference 991-g72 = i80 ° -dqj ', ie the amount of the phase difference d q7 = / i8o ° -d 9p'/> By appropriately dimensioning the resistors bridging the transmitting contact, it can be achieved that the phase difference between the character and separating currents at the output of the transmitter is just 90 °. In the same way, any other phase shift greater than 90 ° can of course be achieved.

Claims (3)

PATENT CLAIMS: i. Method for keying a transmitter for telegraphic transmission systems, where character and separator current steps have the same frequency but different Phase are transferred, characterized in that during the turnover time of the Transmission relay at its armature a certain, between the phase of the isolating current and the phase lying in the character stream is applied, preferably the middle phase. Phase between character and separator current. 2. The method according to claim i, characterized in; that the intermediate phase by bridging the two contacts of the transmitter relay through Ohmic resistances are formed. 3. The method according to claims i and 2, characterized characterized in that to compensate for the reduction caused by the bridging of the phase deviation, voltages of greater phase difference are fed to the transmitting contact. q .. Process according to Claims i to 3, characterized in that when using a phase deviation of 90 ° or greater, the voltages to be supplied to the transmitting contact correspondingly larger phase difference using a transformer with two symmetrical, secondary windings in the same direction and one connected to one of these windings Capacitor resistor member is formed.