SU3425A1 - Cathodic Oscilloscope - Google Patents

Description

It is known that the main drawback of the Brown-Venelt tube is the insufficient convergence of the cathode-ray rays on the fluorescent radiation chamber and the blurriness of the image resulting from it. To eliminate this drawback, so-called magnetic lenses are used, i.e. ring-shaped coils, concentric with a cathode beam, through which a constant current is passed, corresponding to the force. However, these coils do not give a sufficiently complete convergence of the rays; In addition, due to the inevitable folding of their magnetic T10 with the magnetic field arising from the measured or recorded current, the fluorescent spot trajectory resulting from the action of the latter is distorted. Replacing the magnetic effect of the recorded current with an electric one does not improve matters. Theoretical calculation shows that if instead of an annular coil, to wind up the cathode beam to a point, wind the coil uniformly across the whole tube and apply a uniform electric field as the deflecting field.

the capacitor, which also occupies the entire length of the tube, so that both the floors overlap one another and their lines are mutually perpendicular, then the result is the following: 1) the cathode rays, with a corresponding amperage coming in the indicated winding, converge on the screen at one point and 2) this converging field does not alter the shape of the trajectory drawn on the screen by the spot under the action of the deflecting field and the proportionality between the spot movement and the voltage field. This method, allowing to reduce the size of the signal spot ;, makes it possible to limit the very small dimensions of the drawn image and, thus, increase the sensitivity of the tube and reduce the very dimensions of the tube and its fluorescent screen. The proposed oscilloscope serves to reproduce the image in the receiver of an electric telescope, with a possibly thin, correctly deviating cathode beam.

The schematic drawing shows the form of the proposed cathode oscilloscope.

The Brown tube 33 is provided with a cathode 34 and an anode diaphragm 35 (with a thin hole 36} located in front of the cathode. A flat capacitor 38 is placed in the tube, the plates of which occupy the entire free length of the tube between the diaphragm 35 and screen 41. The capacitor 38 is designed to deflect the beam in one The electromagnet 39 for deflecting it in the plane perpendicular to the first one. The solenoid 40, the turns of which are located outside the tube evenly along its entire length, is designed to bring the beam to a point. assigned for viewing glasses motion 1 and the image reproduced by it.

P R E D M E T P A t E N T A.

1. A cathode oscilloscope that serves to reproduce an image in

an electric telescope receiver, with a possibly thin and correctly deflected cathode beam, characterized by the application, in order to bring this beam of rays into focus, a uniform magnetic field directed along the beam along its entire length, and giving an electric field that serves to deflect this beam, also a uniform electric field distributed over the entire length, the lines of forces of which are perpendicular to the lines of forces of the specified magnetic field.

2. The form of the cathode oscilloscope described in Section 1, characterized using a solenoid 40. a coaxial tube 33. The coils of which are located outside the tube evenly along its entire length, and a flat capacitor 38 placed in a tube whose plastoids occupy the entire free length of the tube between aperture 35 and screen m. 41.

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