DE757444C - Telegraphing method for the transmission of messages on electrical, especially short waves - Google Patents

Description

The transmission of messages on short electrical waves is often carried out by the Propagation phenomena of the electrical waves are severely disturbed or even made impossible. These disturbances arise essentially from the fact that the Transmitting antenna emits waves in different ways with time differences of the order of magnitude of 1 ms up to 50 ms and more arrive at the receiving antenna.

If the sender sends a single telegraphic signal, its duration is shorter is than the difference in transit time of the waves arriving one after the other Recipients one after the other two or more independent telegraph characters receive. If, on the other hand, the telegraph signal sent is longer than the difference in transit time of the individual waves, the symbol is extended according to the difference in transit time between the first and last wave, in addition, the beginning and the end are different from the middle part of the character receive. While in the beginning and

At the end of only one wave, namely the first or the last wave reaches the receiver, several waves are picked up by the antenna at the same time in the middle part have been broadcast one after the other by the broadcaster at intervals of the difference in time are, depending on their mutual phase position, they support each other arriving at the same time Waves or stand out more or less ίο strongly. In particularly unfavorable cases they can completely obliterate each other, so that at this time there are no signs at all be received. Only at the beginning and at the end of the sign are there then short bursts of electricity exist, however, of most recording devices due to their inertia completely be suppressed.

If one transmits telegraphic messages by radio that result from an irregular Combining a sequence of telegraphic signs and telegraphic pauses, on the one hand, becomes telegraphic pauses due to the spread phenomena described falsified in telegraphic characters by wave trains arriving later (reverberation) and on the other hand, telegraphic characters through interference of the individual waves (interference fading) falsely converted into telegraph pauses.

These caused by the propagation phenomena of the electric waves Shrinkage and reverberation disorders are eliminated according to the main patent that on the sending side sends short telegraphic impulses instead of telegraphic characters and that the telegraphic characters on the receiving side consist of a short initial part of the received telegraphic impulses and made up of synchronous periodic impulses generated by a local generator.

In the patent 713 692 it is stated that the telegraphic characters on the receiver with Using a current tilting device that can be connected in series with a resistor a DC voltage between its upper and lower breakover voltage. In addition to the DC voltage is left on the tilting device, the received transmitter pulses and the impulses generated at the receiver act in the opposite direction. The amplitude the impulses are chosen so large that the upper or lower breakover voltage through them is exceeded so that the tilting device z. B. current-permeable through the transmitter pulses and is rendered current-impermeable by the receiver pulses.

The arrangement described in the main patent requires that the received Transmitter pulses that are transmitted from the radio receiving center to the telegram receiving center by means of a carrier frequency «, be significantly reinforced before demodeling and composing the telegraphic signs can be used. This makes the effort for the demodeling device considerable.

This deficiency is remedied according to the invention in that a grid-controlled current tilting device or a voltage flip device is used to assemble the telegraphic characters.

In Fig. Ι an arrangement for the composition of the telegraphic characters with the help of a grid-controlled current tilting device is given. The transmitter pulses H ₁ and the receiver pulses U _{2 act} in opposite directions on the control grid of the tilting device K. By the transmitter pulses Ji _1, the upper and lower breakover "Jj and U_ example, scaled by the receiver pulses U ₉ to be increased. When straight / selects the DC voltage U between the breakover voltages TJ and _ £, the tilting device is determined by the transmitter pulses The only prerequisite here is that the amplitude of the pulses is sufficiently large so that the upper breakover voltage is reduced by the transmitter pulses to the level of the DC voltage U and that the lower breakover voltage is reduced to the voltage U by the receiver pulses -iR is raised, where i denotes the lower breakover current. The desired telegraphic characters are then produced at the resistor R.

In Fig. 2, the composition of the telegraphic characters by means of a voltage tilting device K is shown. It is connected in series with two electron tubes connected in parallel to a direct voltage U. The tube 2 is biased so that the current flowing through the voltage tilting device in the idle state lies between the upper and lower tilting currents.

The electron tube 1 is locked in the idle state. It is made current-permeable by the transmitter pulses M ₁ and increases the current flowing through the voltage tilting device to above the upper tilting current. As a result, the voltage drop at K suddenly jumps to a significantly higher value, which remains even after the end of the transmitter pulses.

The receiver pulses u. ₂ steer the electron tube 2 downwards, they reduce the current flowing through K below the lower breakover current. As a result, the voltage drop at K suddenly goes back almost to zero and maintains this low value even when the tube 2 is energized again.

Claims (4)

has become permeable. The voltage at K provides the desired telegraphic characters. Pa T Κ X T A N S P R ü C H E: r. Telegraphing process for the transmission of messages by electrical, in particular short shafts according to patent 713 69J, characterized in that the Telegraph sign on the receiver with the help of a grid-controlled current tilting device or a voltage tilting device. 2. The method according to claim 1, characterized in that a current tilting device is in series with a resistor au a DC voltage between its lower and upper breakover voltage and that the control grid of the current tilting device, the received transmitter pulses and the receiver pulses are fed in the opposite direction. 3. The method according to claim 1, characterized in that two electron tubes connected in parallel, a direct voltage and a voltage flip device are connected in series and that one of the two electron tubes has a strongly negative one Receives bias and z. B. through the received transmitter pulse current-permeable is made while the other electron tube receives a weak bias and z. B. by the receiver pulse is made current-impermeable. 4. The method according to claim 2, characterized in that the second Electron tube current flowing between the lower and upper breakover current and the sum of the two anode currents across the upper breakover current of the voltage tilting device. Please refer to the sheet of drawings 5820 3. 53