SU1115133A1 - Multibeam cathode-ray device - Google Patents

Abstract

A MULTI-BACK ELECTRON-BEAM DEVICE containing a cathode-ray tube, inside the shell of which a source of electrons is sequentially arranged, at least two individual modulators for each beam, an accelerating electrode, a focusing and deflecting systems, and a screen common to all beams also a tube control system having a driver of control signals, the outputs of which are connected to modulators, characterized in that, in order to increase the brightness of the screen while maintaining the resolution The axes of the respective holes of the modulators and the accelerating electrode are parallel to the common axis of the focusing system and are separated from this axis by a distance not exceeding 0.1 the smallest of the diameters of the focusing system lenses, and the ratio of the distances from the center of the deflection of the deflection system to the screen and to the electron source is 0.3-0.9 ratios of distances from the focusing system to the screen and to the electron source, respectively, and the driver of control signals is made with the possibility of mutual relative signal delay alov at the exits. SL 00 00

Description

The invention relates to electronic technology and can be used in projection television.

For reproducing information on a projection screen with a diagonal size of about one meter, single-beam projection electron beam devices are usually used. For a whole range of applications, projection screens with a diagonal of two meters or more are required. In order to get on the projection screen the brightness of about 10 cd / m, sufficient for the projection device to work in a dark room, it is necessary to increase the brightness of the screen of the projection device itself.

A projection cathode-ray device, a device containing a cathode ray tube (CRT), in which a source of electrons, a modulator, an electromagnetic focusing (FS) and deflecting (OS) systems and a screen, as well as a control system, are known in series. The luminescence brightness at a screen operating potential of 25 kV can be obtained by increasing the beam operating current on screen 1.

However, a simple increase in the beam current leads to a deterioration in the resolution of the device, since its diameter increases in the plane of the screen with increasing beam current mainly due to the Coulomb repulsion of electrons.

The closest to the invention to the technical essence is a multi-beam electron-beam device containing a CRT, inside the shell of which there are sequentially located the source of electrons at least two for each of the beams of the modulator, common for all beams accelerating electrode, FS and OS and a screen, as well as a control system having a driver of control signals, the outputs of which are connected to modulators.

When using a monochrome screen, it is possible to increase the brightness of the screen, change several beams combined statically in its center, and dynamically combine them along the screen surface when it is deflected. This technique allows one to increase the beam on the screen with little or no deterioration in the resolution 2.

A disadvantage of the known instrument is that with an increase in the working current of the beams at one point on the screen, the so-called temperature quenching of the phosphor is observed: at a certain current of the beams, the luminance increases with the current, and even the luminance brightness decreases.

In this case, the combination of beams on the surface of the screen in the device with high specific

resolution is extremely difficult and requires complex dynamic matching schemes. However, even with the presence of the indicated schemes, there are no failure of the beams on. the screen reaches

1-3 mm, which reduces the quality of the reproduced image. The mismatch of the beams on the screen is due to the fact that the electron beams pass in the region of the deflecting floor at a considerable distance from one another (from 4 mm or more), and since

Since the real deflection field is not uniform, the beams by this field are deflected by a different angular value.

The purpose of the invention is to increase the brightness of the screen while maintaining resolution.

This goal is achieved by the fact that in a multibeam electron-beam device containing a CRT, inside the shell of which there are sequentially located the source of electrons, at least two individual for each of the modulator beams, the accelerating electrode, FS and OS and screen are common to all beams of the modulator. as well as a tube control system having a driver of control signals, the outputs of which are connected to the modulators, the axes of the corresponding holes of the modulators and the accelerating electrode are parallel to the common axis of the FS and are spaced from this axis on the distance not exceeding 0.1 of the lesser of the diameters of the FS lens, and the ratio of the distances from the center

The Q deviations of the OS to the screen and to the electron source are 0.3-0.9 ratios of distances from the FS to the screen and to the electron source, respectively, and the driver of the control signals is made with the possibility of mutual relative delay of signals at the outputs.

The drawing shows a diagram of the device.

The CRT included in the device contains a source of 1 electrons, individual modulators 2 and 3, in which there are 0 working openings for the passage of electron beams, an accelerating electrode 4 with working openings coaxially with openings in the modulator. FS is made in the form of an electrode 5, combined with an accelerating electrode 4, and a high-voltage electrode 6 connected electrically through a coating on the inner surface of the vacuum shell 7 with a screen 8. Outside the shell is an electromagnetic deflecting system 9. Electrodes 5 and b in FS 0 form a bipotential lens, the FS can be made in the form of an electromagnetic focusing coil or a permanent magnet. The OS can also be electrostatic.

The CRT control system for controlling 5 the intensity of the beams 10 and 11 contains as the control signal generator two video amplifiers 12 and 13, electrically connected to the modulators 2 and 3.

Claims (1)

MULTI-BEAM ELECTRON-BEAM DEVICE containing a cathode ray tube, inside the shell of which there are sequentially located an electron source, at least two individual for each of the modulator beams, an accelerating electrode common to all beams, a focusing and deflecting system, and a screen, as well as a tube control system having a driver of control signals, the outputs of which are connected to modulators, characterized in that, in order to increase the brightness of the screen while maintaining the resolution, the corresponding holes of the modulators and the accelerating electrode are parallel to the common axis of the focusing system and are separated from this axis by a distance not exceeding 0.1 of the smaller of the diameters of the lenses of the focusing system, and the ratio of the distances from the center of deviation of the deflecting system to the screen and to the electron source is 0.3— 0.9, the ratio of the distances from the focusing system to the screen and to the electron source, respectively, and the shaper of the control signals is made with the possibility of mutual relative delay of the signals at the outputs .