DE538924C - Circuit for eliminating annoying character broadening in shortwave telegraphy - Google Patents

Description

GERMAN EMPIRE

ISSUED ON November 27, 1931

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21a ⁴ GROUP

Addendum to patent 537

Patented in the German Empire from February 27, 1930 The main patent started on July 7, 1929.

The main patent 537 382 describes a method for eliminating disruptive character broadening in the case of shortwave telegraphy, especially in the case of high-speed telegraphy and image transmission, specified. Line and pause or black and white are made more different by waves Transfer length in such a way that only the beginnings of both wave trains on Receiver switches the write current on and off regardless of any radiation caused by multiple paths Control extensions of the character. The invention described below aims to further develop the

ig above procedure using a Circuit that allows the usual form of detuning to be used on the transmitter and has peculiarities only on the recipient side.

Like the arrangement described in the main patent, the one below is also suitable explained circuit in the case of image transmission only for black and white originals, not for tinted images. In order to transmit semitones, the transmitter must a previous transformation of the original image takes place, which gives the impression of intermediate values the blackening in a known manner, for. B. according to the grid method to reproduce allowed.

Only the case of facsimile transmission will be discussed below. However, it lies Within the scope of the invention, the method described also for the accelerated transmission of the characters and pauses of the various telegraph systems, since after being converted into power surges z. B. the line as a black, the pause as a light image equivalent equivalent can be viewed.

Detuning the transmitter means here the known transmission of two sufficiently different wavelengths, one of which during the entire sampling period of black and their others radiated during the entire sampling period of white will. Here the assumption, sufficiently confirmed by experience, can be made that the heads of both Waves arrive at the receiver with the same time differences as when scanning of the transmission template are present between the transition points from light to dark and vice versa.

■ ') The inventor has been named by the patent seeker

Dr. Frit \ Schröter in Berlin.

In the case of very short symbols (e.g. when scanning thin lines), the Wave trains arriving at the receiver have a highly variable character. As a result the propagation of shortwave radiation on several paths of different lengths can with rapid transmission, i. H. greater Film speed, a sequence of individual impulses separated by gaps will. If the transmission speed is lower, these impulses flow together to form a continuous pulse. As a result The multiple paths can also cause coincident impulses through interference wipe out, leaving gaps in the registry. In the below The circuit described here is also taken care of against this. By igniting a Glow discharge, which is triggered when one wave begins and then persists, is a permanent operation of the write relay regardless of interference or interruptions in the image signal guaranteed.

The drawing illustrates an embodiment of the invention. The waves picked up by the receiver are expediently converted into intermediate frequencies by superposition; the black corresponding to X ₁ , the white corresponding to X ₂ . They are separated by filters 1 and 2 and control key devices 3 and 4, which deliver a constant output voltage regardless of the field strength fluctuations. The arrangement should work in the sense that when X ₁ arrives, the light relay of the video recorder lights up, so the photographic sensitive recording paper is blackened from the corresponding point. With the arrival of X ₂ , this excitation of the light relay is to be eliminated and its renewed response prevented for a certain time, which corresponds to _{the possible lengthening of the wave train X 1.} The voltage drop that occurs when X _{x is} inserted in the anode resistor 5 of the output tube of 3 increases the potential difference between the ignition electrode and the cathode in a glow light relay containing the ignition electrode 6, the anode 7 and the cathode 8 to such an extent that the independent discharge between 7 and 8 occurs the ionizing shock is ignited. The current then flows from the positive pole of the battery 11 via the resistor 9, the glow path 7-8, and also via the resistor 12 with parallel capacitor 10 back to the negative pole. The voltage drop occurring at the ends of 9 is used to excite the lighting of the light relay 22 via an amplifier 21.

This excitation and the associated blackening of the photographic paper continue, regardless of whether the voltage drop at resistor 5 is interrupted by interruptions in X ₁ , due to the continuous flow of the glow discharge, once ignited, until wave X ₂ arrives. Their use generates a sudden change in current in the primary winding of the transformer 13, which changes the capacitor 10 via an amplifier tube 16, a coupling transformer 17 and the second amplifier tube 18. 19 and 20 are the hot cathodes heated from a shared battery 15. As a result of the increase in voltage of the capacitor 10, an increased voltage drop is counteracted in the circuit of the glow relay 7, 8 of the direct voltage of the battery 11. This has the consequence that the glow discharge is extinguished and thus the voltage drop across the resistor 9 which excites the light relay 22 ceases. The write current therefore stops when X ₂ arrives. So that repeated pulses from X ₂ , which could be caused by the same atmospheric cause as X ₁ , cannot cause further charging of the capacitor 10, which in the sense of the invention is supposed to discharge slowly via the resistor 12, is adjustable by the Contact 14 at resistor 12 tapped off a negative bias voltage for the control grid of tube 16. As long as current flows between the electrodes 7 and 8 of the glow relay, this negative bias voltage has just the right value for the tube 16 to function as an amplifier; but if the voltage at the capacitor 10 or at the ends of the resistor 12 has been increased by leaps and bounds due to the charging current surge triggered by the use of X _{2 , the control grid is now locked so that renewed pulses from X 2} during a certain decay time of the capacitor 10 the tube 16 can no longer influence. The decrease in the voltage of the capacitor 10 across the resistor 12 must be adjusted according to the time within which lagging amplitudes of X ₁ no can occur, which is effected by suitable dimensioning of the capacitance 10 and the resistor 12, ie the time constant of the arrangement can. In this way it is achieved that the voltage effective between the electrodes 7 and 8 of the glow relay remains below the value necessary for the discharge during a certain controllable part of the decay time of the capacitor 10, so the excitation of the light relay 22 is blocked for this time. This blocking effect is

Claims (2)

but gradually decreases with the charging voltage of the capacitor and thus brings about the course of the time-limited counteraction against the broadening of X ₁ shown in the main patent. Patent Ansi ^j rüche: i. Circuit for eliminating disruptive character broadening in shortwave telegraphy, in particular facsimile transmission according to patent 537,382, using two different wavelengths that correspond to black and white in the image or line and pause in telegraphy and during the entire scanning period of black and white or during the entire duration be emitted by line or pause, characterized in that the use of a wave (X ₁ ) is used at the receiver to ignite a glow light relay (6, 7, 8) in which the recording device (22) is now continuously exciting uninterrupted Current flow remains until, when the second wave (λ ₂ ) arrives, it generates a counter-voltage that cancels the glow current via amplifier tubes (16, 18). 2. Circuit according to claim 1, characterized characterized in that the counter voltage generated by the second wave which is bridged at a resistor (12) Capacitor (10) occurs, is used to shift the negative Bias on the control grid of an amplifier (16) repeated pulses of the second wave harmless for a limited cooldown time. Please refer to the sheet of drawings