DE349838C - Braun tube with glow cathode, especially for the purpose of electrical image transmission - Google Patents

Description

ISSUED ON MARCH 10, 1922

Dr. Franz Skaupy in Berlin.

The subject of the invention is a brown marriage Tube with hot cathode, which contains an auxiliary electrode near the hot cathode, the electrical voltages imposed under the influence of the same at a given Anode voltage is the amount of electrons emerging from the hot cathode and thus allowed to regulate the intensity of the fluorescent spot. The auxiliary electrode is useful designed as a grid; the voltage applied to the grid can either be positive DC voltage, if it is a question of only a low anode voltage to achieve great brightness of the fluorescent spot. It can also be mutable Be tension when it matters, the intensity of changing light impressions on the screen and to do this without changing the anode voltage.

The latter case is particularly important when the Braun tube is used to serve for image generation at the receiving location txl in the remote transmission of images. The electrical currents originating from the light-electrical cell (also selenium cell and the like) present at the location are then fed to the tube between the grid and the hot cathode and generate fluctuations in the intensity of the image point on the fluorescent layer, with the composition of the various image points in itself known way happens by electrical or magnetic deflection of the cathode ray, so that the pixels are distributed in a regular manner over an area. Since the deflection of the cathode ray is influenced in a complicated manner by a change in the anode voltage, it is a particular advantage of the tube and its mode of operation according to the invention that the change in intensity of the ray occurs at a constant anode voltage. In order to obtain the smallest possible image points, it is advantageous to use special resources.

turn to. These include in particular a "collection device near the hot cathode, which either with the hot cathode at the same potential or one of them something different, preferably negative potential is. You can also use a sleeve-shaped dimming device, which from the cathode ray before its deflection fades a part and only a thin bundle

through, prevent too large fhiores- | zestflecken arise. This dimming device! It is then expediently used as an anode or through a suitable conductive j connection with the anode the backflow of the j cause accumulating electrons there. ■ In contrast to the known masking devices the described should have the shape of a long, narrow sleeve. Once in a while

ίο it proves advantageous this centering device at the same time as a secondary cathode and for this purpose its potential to choose against the hot cathode so that inside the sleeve, similar to a Lilienfeld's X-ray tube, secondary electrons are triggered, which, from the anode potential accelerates the fluorescent spot by itself or together with the primary electrons produce. In this case, behind the

ao secondary cathode can also be arranged a grid, which influences the space charge. The changing intensity of the fluorescent spot can then either by changing the voltage between the secondary cathode and hot cathode or between the first; Grid and a thermionic cathode or 'advertising generated ■ grid and the secondary cathode' between the ■ second after the secondary cathode the following. '

The drawing shows its application as a receiver as an embodiment of the invention for the electrical remote transmission of j images shown schematically. !

B is the glass body of the Braun's tube, ■ K its hot cathode, G the grid which influences the intensity of the fluorescent spot, H the binding device or secondary cathode,; S the collecting device, C which is the electrostatic deflection of the cathode ray _; Acting capacitor plates, T the transformer, which feeds the pulses j coming from the light j electric long-distance line to the grid. F is the fluorescent screen, B _{1 is} the battery for heating the hot cathode, B _{2 is} the power source for generating the cathode rays.

Claims (8)

Patent Claims: . 'i. Braun's tube with hot cathode, in particular for the purpose of electrical image transmission, characterized in that the tube is provided with an auxiliary electrode (G) arranged between hot cathode and anode, for the purpose of. by setting the potential of this auxiliary electrode, preferably with a given anode voltage, to determine the amount of electrons striking the fluorescent screen and thus the light intensity of the spot or to change it in any rapid change. 2. Tube according to claim 1, characterized in that the auxiliary electrode is formed by a grid (G) arranged in the vicinity of the hot cathode (K). 3. Tube according to claim 1, characterized in that the auxiliary electrode through a cylindrical, relatively long metal sleeve formed from such an arrangement that the inner surface of the sleeve is under the influence of the filament when appropriate. Difference in potential on striking Electrons emits secondary electrons, which then alone or together with the sleeve that is also used as a centering device Primary electrons generate a narrowly defined fluorescent spot. 4. Tube according to claim 1 and 2, characterized in that a special elongated metal sleeve (H) is arranged in the tube, which only allows a narrow cross-section to pass through the cathode ray beam coming from the hot cathode. 5. Tube according to claim 4, characterized in that the shielding sleeve (H) is connected either as the anode of the tube or otherwise, by means of a suitable circuit, allows the charge impinging on it to be discharged to the anode. 6. Tube according to claim 1 to 5, characterized in that a preferably cylindrical collecting device (S) is arranged in the vicinity of the hot cathode (K) in the manner of the usual for hot cathode X-ray tubes, which is either connected to the cathode or charged to negative potential is. 7. Tube according to claim 1 to 6, characterized in that an auxiliary electrode, preferably a grid, influencing the space charge and thereby the continuous amount of electrons is also arranged behind the sleeve (H) acting as a masking device or as a secondary cathode. 8. Method for generating a light spot, the light intensity of which is variable Amperage or voltage is proportional, characterized by no that the potential of the auxiliary electrode of a Braun tube according to claim 1 or the dependent claims, preferably with a given anode voltage, under the influence the variable current or voltage is changed. 1 sheet of drawings.