DE598070C - Receiving arrangement for the purposes of telegraphy and television - Google Patents

Description

For the purposes of telegraphy and television, glow tubes are often used on the receiving side as inertia-free controlled light source. The amount of light emitted by a glow tube is largely proportional to the current flowing through the tube. The control of the glow tube as a result, it can be done electrically, and it is common to use the tube either via a high resistance to a voltage that exceeds its ignition potential and the resulting discharge capacitive or inductive way to superimpose the image frequencies (cf.e.g. Engelh a r d t und G eh r k e, magazine for technical Physik, 6, 1925, page 153 ff.) Or the glow tube via a transformer to a voltage close to its ignition potential and the image fre-

to transfer ao sequences to this transformer, ί

In these circuits, however, it is unpleasantly noticeable that the ignition and extinction voltage a glow tube are usually quite far apart. As a result, temporary extinction will result in either Suppression of a number of brightness levels or for the onset of disturbing ones Tilting vibrations. It has therefore already been proposed that the disturbing difference between Ignition and extinguishing voltage 'maintained in parallel to the controlled main discharge Depress auxiliary discharge, which pre-ionizes the discharge space.

The invention relates to an arrangement of this type. According to the invention, the Auxiliary electrode one equipped in a manner known per se with at least three electrodes Discharge tubes in such a way provided for the current limitation of the auxiliary discharge Resistance connected that this limitation resistance stood outside the controlled Main discharge circuit is located. In this way it succeeds with surprisingly weak currents in the auxiliary discharge circle get along, as the strength of the auxiliary currents - in contrast to the previously known Arrangements of this kind - no longer from the rest to the overall circuit The requirements set depend solely on the degree of the desired Preionization is determined. The conditions are particularly favorable here, if you only use a positively biased auxiliary electrode and the auxiliary discharge generated between her and the cathode of the main discharge. One then achieves that the auxiliary discharge serving for pre-ionization its cathode fall directly into the area around the cathode of the actual main discharge, which is controlled by the image frequencies builds up. By eliminating the in-

follow recombination when migrating through larger paths, resulting in ion loss then even extremely low auxiliary discharge currents can achieve the desired To bring about a lowering of the ignition voltage in the main discharge circuit.

The invention is explained in more detail below with reference to the figures in which ι a controlled light source in the reproduction apparatus of a picture telegraph or TV built-in to think multi-electrode glow tube represents. In the drawn Circuits exclusively use tubes with only three electrodes, of which those marked with the digits 2 and 3 Electrodes from one side and the electrode labeled 4 from the opposite side are melted into the tube 1. The three mentioned Electrodes can perform different tasks depending on the circuit used.

In the circuit of Fig. 1, the electrode 2 serves as the cathode and the electrode 3 as The anode of the controlled main discharge, while the electrode 4 acts as the anode of the auxiliary discharge is used. The electrode 4 is connected to the positive via a limiting resistor 5 (approximately 10,000 to 100,000 ohms) Pole of a battery placed, the voltage of which is sufficient to leash between it and the cathode 2 . to maintain weak continuous charge for pre-ionization. Through the specified The position of the limiting resistor 5 is removed from any connection with the controlled discharge circuit 2-3. the Main anode 3 is placed on the positive pole of a battery, the voltage of which is slightly above the extinguishing potential of the main discharge. By appropriately dimensioning the electrode spacing inside the tube 1 can optionally be achieved for the two Electrodes 3 and 4 required bias voltages get the same value, so that only a single battery tap needs to be provided for both.

The transmission of the image frequencies to the glow tube 1 takes place through the transformer 6, the secondary winding of which is in the circuit of the main discharge and at the same time that of the operation of glow tubes inevitably required limiting resistor represents. As a result of the approach caused by the auxiliary discharge of ignition and extinguishing voltage succeeds with such an arrangement, the luminous Glow discharge without any discontinuities and with complete suppression to modulate any tilting tendency.

In the circuit of Fig. 2, the glow tube 1 is controlled by one of the Image frequencies modulated electron tube 7, which leine together with the resistor 8 Forms voltage divider-like series connection. The connections are chosen so that the Electrode 2 again cathode and electrode 3 anode of the controlled main discharge while the electrode 4 serves as an auxiliary electrode. The anode 3 is located at the center tap of the voltage divider formed from tube 7 and resistor 8, so that the Discharge path 2, 3 omitted partial voltage from the tube 7 is controlled.

The advantages of the invention are particularly evident in this circuit. With it you can work with resistance reinforcement until the end, without the disadvantageous oscillation tendency due to its tilting tendency Direct series connection of electron tubes and glow tubes. Also one comes in this circuit with relatively low total voltages and can be connected to separate battery taps waive for the individual circuit elements. The cathode 2 is common to both discharge paths as shown in Fig. so that even very weak currents in the auxiliary discharge circuit 2-4 are sufficient to the desired approximation of ignition and extinguishing voltage in the main discharge circuit 2-3 to achieve. The auxiliary control unit 4-5 is completely independent of the controlled discharge.

An arrangement according to the invention in which the resistor 8 is omitted compared to FIG is shown in Fig. 3. In this circuit, the electrode 4 serves as the common anode for both discharge paths, and the electrode 3 is used as the cathode of the auxiliary discharge used. The electrode 2 is the working cathode; it is connected to the anode of the electron tube 7 connected, so that the discharge path 2-4 with the electron tube 7 is in series and is traversed by the full anode current. The hip discharge flows between the Electrodes 3 and 4, with 3 acting as a cathode. As a result, the auxiliary discharge completely independent of the main discharge; however, it also touches the working cathode 2 no longer immediately. So that they still have the desired blurring of the difference able to bring about between the ignition and extinction voltage of the main discharge, it must be operated with a much higher current intensity than in the previous circuit examples.

It has proven to be expedient to control the inertia-free control according to the invention Light source used multi-electrode glow tubes a special one from the usual to give a different form. Fig. 4 shows such an embodiment that before iao is especially suitable for televisions that use a Nipkow disk

ο. Like. A more extensive smoldering surface is released point by point. By doing Glass balloon ι are the cathode 2 and the (covered by it) anode 3 in the form of rectangular Arranged sheets and using the glass struts 9 in such a successful distance from each other that between no glow discharge can occur.

ίο The auxiliary electrode 4 is according to the invention in Fig. 4 arranged so that the transition point of the auxiliary discharge outside the usable glow surface lies. For this purpose, a tab 10 is attached to the cathode 2 provided, of the U-shaped auxiliary electrode 4 on both sides at a distance of a few millimeters is encompassed. To enable the cathode and anode to be exchanged, it is expedient to also use the anode with such a tab-shaped approach 10 to be provided.

Destruction of the glow tube by accidentally connecting the auxiliary electrode incorrectly 4 is expedient by installing the series resistor 5 in the lead to the lamp itself made impossible. This is the case for the main electrodes not necessary, since the control element is always located between them and the power source.

Claims (4)

Patent claims: ι. Receiving arrangement for the purposes of picture telegraphy and television which serves as an inertia-free light source 'a multi-electrode glow discharge tube through which in addition to the controlled Main discharge an auxiliary discharge used for pre-ionization flows, characterized in that the limiting resistor (5) for the auxiliary discharge lies outside the controlled main discharge circuit. 2. Arrangement according to claim 1, characterized in that the auxiliary discharge between the cathode of the main discharge and a positively biased auxiliary electrode passes over (Fig. 1, 2 and 4). 3. glow tube for arrangements according to claim 1, characterized by a such an arrangement and shape of the electrodes that the transition point of the auxiliary discharge (4-10) lies outside the usable glow area. 4. glow tube for arrangements according to claim 1, characterized by the installation of the series resistor (5) directly into the supply line of the auxiliary electrode (Fig. 4). For this purpose ι sheet of drawings