SU42594A1 - Cathodic Oscilloscope - Google Patents

Description

In existing types of cathode oscilloscopes, the surface on which the cathode beam travels, usually made in the form of a fluorescent layer, deposited on glass for recording oscillograms is replaced with a photosensitive layer on paper, glass or celluloid and placed inside the oscilloscope or superimposed light-sensitive paper outside. Finally, they take a picture with a camera.

The present invention makes it possible to record the path of the cathode beam by placing the photosensitive (more precisely, electrically sensitive) layer outside the vacuum and not using the fluorescent screen luminescence. For this purpose, the oscilloscope is designed so that the cathode beam can be moved along the surface of a multicellular panel, consisting of a series of insulators isolated from each other, in order to place photographic paper on this panel and to record the waveform.

The rear wall of the balloon 1 of the cathode tube is formed by a multicellular screen 2 consisting of an insulating mass 3 in which conductors 4 are embedded, which are closed on surfaces

screen. The number of conductors per 1 cm of the surface can be very large, for example, up to 10 pieces, with a conductor diameter of 0.03 mm. Photographic paper 5 is pressed onto the surface of the screen facing outwards and pressed by the conductive plate 6. When the cathode beam moves along the screen surface, the conductors will be under voltage that is applied between the 6 electrode and the cathode 7 of the oscilloscope.

In this case, a latent image will be obtained on photosensitive paper in the same way as obtained by clustering, only under those conductors along which the cathode ray has passed.

The inner surface of the screen 2 can be made non-flat in order to better focus the cathode beam.

The screen can be made in the following way: tightly laid enamelled conductors parallel to each other of sufficiently long length and in greater quantities are impregnated under vacuum with liquid enamel, pressed and subjected to the necessary heat and chemical treatment. The resulting solid cylindrical body can be cut into individual

The plates are perpendicular to the cylinder axis, and the plates can be given the required shape by mechanical turning, milling, etc. The workpiece must then be etched to clean the ends of the conductors and placed in an oscilloscope.

Such an oscilloscope can be used to record curves in the study of electrical quantities, image transmission, etc.

The subject matter of the invention.

A cathode oscilloscope that has a multicellular panel of a series of conductors isolated from each other as a screen, characterized in that the panel forms part of a balloon tube for placing photographic paper on this panel to record waveforms outside the balloon tube.

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