DE842232C - Electron tubes with fluorescent screen, especially for tuning display for frequency-modulated reception - Google Patents

Description

Electron tube with luminescent screen, in particular for tuning display for frequency-modulated reception 1) The hearing concerns an indicator tube and has an integral meaning for such indicator tubes, In which the luminescent screen and the cathode one have a narrow, elongated shape. The arrival is primarily suitable for sharp Positioning of treduence-modulated receivers. Hei such (cr @ iten are from the demodulator, the z. B. be a 1) iski-iiriiiiatiir or ratio detector can derive two voltages. The one of these Tensions varies between positive and negative tiN-cn @@ 'erteu, from which the low frequency is directed. The other tension fluctuates between zero and positive or between zero and negative \\ 'and is used for derivation the automatic volume control. The invention consists in that in such a display tube two differently effective, the intensity of the electron flow influencing control systems are provided, which are arranged one behind the other in the direction of the electron movement and of which the first system is suitable for extensive or complete suppression of the electron flow while the second system an indication of the potential change. from positive to negative voltage values or vice versa.

The first control system can be designed that outside of the Bandwidth of the filter of the electron beam is completely blocked. A lightening of the luminescent screen occurs in that Pass range of the filter in appearance. The setting of a transmitter station is then carried out by observation of the luminescent screen so that only a lightening of the luminescent screen the The proximity of the set transmitter can be recognized. A brightness comparison is used to adjust the focus two or more light spots made together. For this purpose .is According to a further invention, the second control system designed so that one or more Control electrodes are provided to which a comparison voltage or voltages with opposite Voi. characters can be applied in such a way that a comparison of brightness corresponding Leuclhtflecke is made possible on the fluorescent screen. The additional Control electrodes are expediently the control electrodes of the second control system attached adjacent or nested with the same.

The invention is to be explained in greater detail with the aid of the drawing. Fig. I illustrates the voltage curve of the two control systems in: v1> dependency the upset. The zero line shows the focus setting at which the low-frequency voltage i has its greatest worth. Curve 2 corresponds to that on the second control, stem lying voltage, at which for the focusing the potential change from positive to negative values or vice versa is decisive.

2 and 3 is an embodiment of the invention shown, FIG. 2 apparently a cross section and FIG. 3 a simplified one Illustrate top view. The cathode is' here as an elongated, thin filament 3 formed, parallel to which there is also an elongated one, which is also real, and is also real Luminous screen .4 is located. The control systems are located between the cathode and the fluorescent screen arranged, of which the control star 5, 6 adjacent to the cathode is an intensity control corresponding to the voltage curve denoted by t in FIG. The control electrode can be designed as a grid, panel, frame or the like. The second tax system consists of the control electrode 7 and the additional electrode 8, which are also cause an intensity control of the electron flow. For example the control electrode 7 at a voltage, the course of which is illustrated by curve 2 in FIG. The control electrode 8 is expediently on a fixed, to a certain value set voltage, which serves as a comparison voltage, and on the luminescent screen .I generates a light spot 9 @ of constant brightness. The brightness is adjusted so that it corresponds to the brightness at the zero crossing of the voltage curve 2 in Fig. I corresponds. In .diesem case the light spot 9 and or through the Voltage at the control electrode 7 generated luminous spot io the same brightness. the Control electrodes 7 and 8 can also be used as grids, panels, frames or the like. be trained.

It is also possible to not apply a constant to the control electrode 8 Apply voltage and thus achieve constant brightness of the light spot 9, but here to use voltages of opposite polarity have the voltage values of curve 2. This ensures that when out of tune the brightnesses of the light spots 9 and io change in opposite directions, d. H. at As the luminous spot io becomes bright, the surface 9 becomes darker and vice versa. The focus is then obtained by setting the luminous spots 9 and 9 to the same brightness ok It is not even necessary to determine the equivalent stress according to its size to make the control voltage equal if it only has opposite polarity, because in the case of exact focusing, both of its values are equal.

The entire brightness of the display is controlled by the first control system, d. H. the control electrodes 5 and 6, be @ influences. In the case of an exact match the overall brightness is greatest, so that the coordination is particularly facilitated here wind. Outside the pass bandwidth of the band filter, the electron flow can either can be blocked entirely or suppressed except for a small amount.

A further exemplary embodiment of the invention is illustrated in FIG. Here the site control system is perspective in its essential for the invention Parts illustrated, with the individual parts for the sake of clarity are pulled apart. The cathode here is an indirectly heated rod cathode ii provided whose electron emission by the first control system, consisting <from the two control electrodes 12 and 13 is influenced. The second tax system consists of grids of the same type, which lie next to each other in a row and of each of which the neighboring grid alternately to the control voltage and the Comparison voltage are connected. For example, the grids 14, 15 lead and 16 the control voltage, while the grids 17, 18 and 19 have the same voltage lie. Correspondingly, luminous spots 21, 22 and are formed on the luminescent screen 2o 23, the brightness of which is a measure of the control voltage, while the brightness of the light spots 24, 25 and 26 depends on the comparison voltage. It can be here in turn, the comparison voltage can either be a constant voltage or a opposite to the control voltage.

Claims (3)

PATENT CLAIMS: i. Display tube, especially for tuning display for frequency-modulated receivers, characterized in that two differently effective control systems influencing the intensity of the electron flow are provided, which are arranged one behind the other in the direction of the electron movement and of which the first system is suitable for extensive or complete suppression of the electron flow , while the second system displays the change in potential from positive to negative voltage values or vice versa. 2. Display tube according to Ansprudh i, characterized in that the second control system tnit one or several additional control electrodes are provided to which a comparison voltage or voltages with opposite signs can be applied in such a way that a Allows comparison of the brightness of corresponding light spots on the luminescent screen will. 3. display tube according to claim 2, characterized in that the additional Control electrode or electrodes of the control electrode or electrodes of the second control system are arranged adjacent, in particular are nested with the same.