SU341371A1 - - Google Patents

Description

Wide angle

The invention relates to electrovacuum technology, in particular, to wide-angle transmitting television tubes with a spherical photoconductive target and a cone-shaped bulb, in which the centers of curvature of the target and deflection are combined and electrostatic focusing and magnetic deflection are used.

A wide-angle transmitting television tube with a spherical photoconductor with a neck target and a cone-shaped bulb with combined centers of curvature of the target and deflection, containing an electronic searchlight, systems for electrostatic focusing and magnetic deflection, is known.

However, the design of a known tube does not provide sufficient reproducibility of devices, as well as high resolution with small dimensions of the tube.

The proposed design of the transmission tube is characterized in that at large angles (about 110 °) of the electron beam deflection, the ratio of the diameter of the spherical target to the radius of curvature is 1.5-1.6, and the ratio of the distance from the center of the electrostatic focusing system to the center of the target to the distance from the center of the focusing system to the electronic projector is 1.4-1.7.

This makes it possible to obtain high resolution over the image field at large angles of deflection of the electron beam.

The drawing shows schematically the tube of the proposed design.

The tube contains an electronic searchlight /; electrostatic focusing system 2; a wide-angle spherical photoconductive target 3 consisting of a photoconductor 4 located on a translucent conductive layer 5, in which the ratio of the diameter D to the radius of curvature R is 1.5-1.6, and the ratio of the distance / i from the center

the focusing system to the center of the target to the distance / 2 from the center of the focusing system to the searchlight is 1.4-1.7.

The proposed transmitting television tube works as follows.

The optical image is projected by the lens through a correction lens onto a convex surface of a spherical target, covered on the opposite side with layers of a photoconductor and a translucent conductive coating (signal plate). In case a flat-concave glass fiber unit is placed at the entrance of the tube, the concave surface of which has a spherical shape and is covered over the signal plate. TRANSMISSION TELEVISION TUBE

It is not used, the optical image is projected by the lens onto the flat surface of the fiberglass assembly and transferred to the spherical photoconductive surface.

The potential relief formed on the photosensitive surface corresponds to an optical image and is read by an electron beam formed by an electronic searchlight and a focused electron-optical focusing system 2, for example a single-potential lens. The electron beam is scanned in rows and a frame using a wide-angle deflecting magnetic coil.

As a result of the experiment, a small-sized mock-up of a sphericon tube with an outer diameter of a spherical target of 92 mm, a total length of 180 mm and the above-mentioned ratio of structural dimensions was created. The resolution of the tube at its center is 3500 lines, and at the edges is 20-25% lower.

The peculiarity of such a tube is the fast switching mode of the target.

(voltage on the signal plate is 400–450 V), in which the collector grid is not required to be installed in front of the spherical target, which simplifies its design.

Subject invention

Wide-angle transmitting television tube with spherical photoconductive

cone-shaped flask with combined centers of curvature of the target and deflection, containing an electronic illuminator, electrostatic focusing systems and magnetic deflection, characterized by

in order to ensure high resolution over the image field at large angles (about 110 °) of the electron beam deflection, the ratio of the diameter of the spherical photoconductive target to

its radius of curvature is 1.5-1.6, and the ratio from the center of the electrostatic focusing system to the center of the target to the distance from the center of the focusing system to the electronic searchlight is 1.4-1.7.