DE648135C - Electron beam tube for optical sound recording - Google Patents

Description

Cathode ray tube for optical sound recording The invention relates relying on his cathode ray tube for optical sound recording.

It is known to use cathode ray tubes, e.g. B. Braun tubes, for To use sound recording according to the intensity method. That between cathode and anode-lying control cylinder are in accordance with the sound vibrations fluctuating voltages are supplied, which increase the intensity of the electron beam and so that the intensity of the light spot on the fluorescent screen change, its Shape is determined by masking by means of an opening in the anode.

It is also known to record optical sound after amplitude tracking with the help of a Braun tube, with the sound waves as electrical Vibrations are sent into a coil surrounding the tube. Through the magnetic tables The effect of the coil is the cross section or the expansion of the cathode ray beam changed. Apart from the fact that in this known arrangement there is also a special one Magnet must be provided in order to prevent the electron beam. or the light spot the screen of the tube the shape required for sound recording, preferably a narrow one, essentially only in its length according to the sound vibrations changing strip, must give the control currents and their fluctuations in the control coil must also be relatively large in order to have a sufficiently clear light tone writing on the moving film behind the screen.

The subject of the invention is such a shaping of the known Control cylinder one. Cathode ray tube for optical sound recording that control and shaping of the light spot purely electrostatically and therefore with low control power and takes place without loss of electrons by blanking.

According to the invention, the control cylinder receives .s perpendicular to the axis of the electron beam has an elongated cross-sectional shape. Such a controller Electron-optically represents a cylinder lens and designs on the luminescent screen from the generally circular electron exit surface of the cathode an image in the form of a light strip, the length of which varies with the control voltage on the cylinder changes, while its width because of the closer lying in this direction Field lines of the control cylinder remains essentially the same. Also the area intensity of the light streak practically does not change.

The light strip is inversely proportional to the (negative) initial voltage on the cylinder smaller, until @er finally with one size the negative bias disappears completely. The glowing line on the fluorescent screen is the sharper, the smaller the distance between the opposing boundary surfaces d control organ in the preferred benchmark, is.

In the simplest case, the control element can consist of two parallel opposed. electrically short-circuited plates exist (see Fig. i). Here i means one Cathode ray tube with hot cathode 2, An-Ode 3, fluorescent screen 4 and the one between Cathode and anode lying pair of plates 5. The two are only a small distance apart opposing plates 5, between which the electron beam passes_, the control voltages are supplied.

Instead of the pair of plates, an oval (or also rectangular) cylinder 6 (Fig. 2) Venvenduni, find its cross-sectional shape perpendicular to the electron beam line 7 in mutually perpendicular directions substantially has different dimensions. The electron beam then appears on the Luminescent screen as a strip of light, whose longitudinal direction coincides with the direction of the large Axis S of the control cylinder coincides.

In the embodiment shown in Figure 3, the control cylinder formed by two pairs of plates 9, 9 and i o, i o which are arranged at right angles to one another, that are electrically short-circuited. The distance between two parallel opposite one another Plates are chosen differently.

In many cases it is advisable to only have two opposite each other Electrically short-circuit plates. The sharpness of the light streak can then regulate by changing the preload on one or the other pair of plates. In this case it is also not necessary that the distances between the two pairs of plates are different.

,. If the plate pairs have different pretensioning, it is advisable only one pair of r4s is supplied with the control voltage, while the other with constant bias only to deform the usual round light spot serves to the desired line or strip farm.

Claims (5)

PATE.IT Air SPRÜ CH E i. Cathode ray tube for optical sound recording with a control cylinder arranged between cathode and anode, characterized in that the control cylinder has an elongated cross-sectional shape perpendicular to the axis of the electron beam. 2. Cathode ray tube according to claim i. characterized, that the control cylinder by two parallel, electrically short-circuited plates is formed. 3. Cathode ray tube according to claim i, characterized in that that the control cylinder by two pairs of plates arranged at right angles to one another is formed, which are electrically short-circuited. 4. Cathode ray tube according to claim 3, characterized in that two opposite plates are electrically are short-circuited. 5. Circuit of the cathode ray tube according to claim 4, characterized characterized in that the plate pairs receive different bias and the control voltage only your one pair of plates is fed.