SU45648A1 - Device for transmitting vision - Google Patents

Description

The proposed invention relates to a known device for the transmission of vision on the principle of accumulation of charges caused by an electronic image using a continuous photocathode onto which an optical image is projected. The invention consists in the use of an electron-beam projector, the electron beam from which is fixed on the surface of a dielectric or mosaic layer and causes neutralization of the charges that accumulate over the entire frame on the specified surface.

The device according to the invention, shown schematically in the drawing, consists of a glass evacuated balloon B, in which all electrodes are enclosed. Cathode / C, is one of the known and most sensitive photocathodes, as in, for example, a conventional cesium photocell. Near the cathode / Ci is placed a metal mesh L, which is an anode and connects to an EI battery to create an accelerating field. At the other end of the balloon there is an anticathode / C ,, which is a dielectric plate (mica, glass or other suitable conductive PS material), or the subdivided (mosaic) metal layer Dictode / L is in contact

with a metal plate L, which is an additional anode connected through resistance R to a battery E.2. One of the usual devices for creating focusing and controlling a thin electron beam running along the anti-cathode / G is placed in the bell of the M balloon. The image of Si with the lens O is projected onto the KI photocathode and knocks electrons out of it, which, under the action of the anode L, rush to the KS anticatode at a speed C. the base of the beam and the additional anode La is positive. At different points of this capacitance with sufficiently low plate conductance / G, the charges will differ depending on the capacitance at a given point and the flux density of electrons of a given beam, which is proportional to the photocathode illumination /, from the optical image 5). At the same time, the dielectric or the mosaic of the K2 plate emits an electron beam P from an electron-beam searchlight, which surrounds the surface L according to a certain image scanning law. The electron velocity of the beam P is less than the velocity Y, and therefore they will line by line compensate for the positive charge of the capacitor / G-Az. This change in charge will create in the circuit P, K, A.J, R an alternating current - with the resistance R - the image signals will be sent to the amplifier and then to the modulator. Then the process is repeated. The charging time of each point of the anti-cathode / Cz from the secondary emission of the electronic image is equal to the duration of transmission of the entire image frame, i.e.

- sec, where / C is the number of frames per second,

and the time of compensation by the beam P for the duration of transmission of one point, i.e.

 seconds, where N is the number of pixels. This increases the sensitivity of this transmitter. In addition, the sensitivity is increased further by the use of secondary emission.

In the proposed device, it is possible to increase the electronic image 2 on the anticatode K, and therefore there is the freedom to vary the diameter of the beam P and the clarity of the image. The secondary emission of a dielectric or a mosaic of an anticathode K can be caused either by photoelectrons of image 2 or by a chanting beam P, depending on the choice of their speeds.

In addition, the electronic image S.2 can be concentrated and controlled according to the laws of electron optics by introducing additional electrostatic or magnetic lenses.

Similarly, depending on the location of the iKi and L electrodes, the scanning beam P may be focused on the surface / Cr or electrically or

magnetically. If it is necessary to design an optical image onto the photocathode Ki on the anticathode side, the anode Lg should be in the form of a grid. .

The subject matter of the invention.

Claims (2)

1. A device for transmitting vision based on the principle of accumulation of charges caused by an electronic image using a continuous photocathode onto which an optical image is designed, characterized in that the photoemission of the cathode creates an electronic image on a dielectric plate or on a subdivided (mosaic) metal photoemission layer, in order to obtain secondary emission from them, as a result of which positive charges on the surface of the dielectric or metal mosaic are accumulated in voltage whole frame and neutralized by an additional electron beam; electron beam spotlight, focused on the surface of the same dielectric or mosaic, when the beam deviates from the coordinates according to the coordinates of the corresponding known methods. 2. The form of the apparatus according to claim 1, characterized by using a photocathode KI, a grid anode Aj, a dielectric or subdivided metal layer / Cz, an additional anode Lp and a signal discharge circuit consisting of the anode AZ, resistance R and battery 2 connected positive pole to the anode L and negative to the additional anode Lz. to the author's testimony of P. V. Shmakov and P. V. Timofeev №, 45648