SU762057A1 - Electron gun - Google Patents

Description

The invention relates to electron beam devices (EBU) and can be used in the development of electron beam tubes.

Known electron gun with tetrode 5 electron-optical system (EOS), consisting of a cup modulator, flat accelerating and cup focusing electrodes. The anode in this EOS is an aqua-nal coating. EOS has found wide application in CRTs with working currents of tens of microamperes and is used in those cases when it does not need high resolution at the edges of the screen [1]. · 15

Closest to the proposed is an electron gun for receiving electron beam tubes containing a coaxial cathode, a modulator, three electrodes of the focusing lens with holes, the last 20 electrodes of which are electrically interconnected, the focusing electrode and the anode [2].

However, the EOS of this gun does not provide high resolution at 25 small currents and the uniformity of its distribution across the field of the screen of the tube.

The aim of the invention is to increase

resolution and uniformity

its distribution over the entire field of the screen 30

2

tube by reducing the aperture of the beam.

This goal is achieved by the fact that the gun is equipped with coaxially the rest of its elements with an additional diaphragm located between the focusing lens and the focusing electrode, and an additional electrode with an aperture located between the aperture and the focusing electrode, and the diameter of the aperture in the diaphragm is smaller than the diameter of the hole in the electrodes of the focusing lens, additional electrode has a length greater than the diameter of the hole in it.

An additional electrode is used to eliminate secondary electrons from the cutting diaphragm, and can also be used for dynamic focusing.

The drawing shows the proposed gun, a general view.

The EOS gun consists of cathode 1, modulator 2, flat electrodes 3-5, forming a focusing lens to control the beam aperture between electrodes 1-5, an additional diaphragm 6, an additional electrode 7 for correcting the angle of convergence of the beam at the screen, which can be made of two flat diaphragms, the distance between which is not less than the diameter of the hole in them, or analog76205?

A cylindrical cylinder, a focusing electrode 8 and an anode 9. Electrodes 1, 2 and 3 form an object with a certain aperture angle from the side of the cathode 1. A single focusing lens produces a change in aperture angle.

Additional diaphragm 6 serves to reduce the beam aperture. It has an independent conclusion, which allows to adjust the potential applied to it and enhance the focusing effect of the focusing lens by forming an additional lens between electrode 5 and diaphragm 6, increase its current transmission by further reducing the beam cross section and increasing its density in the area of its orifice.

The additional electrode 7 together with the diaphragm 6 and the electrode 8 form a lens, with the help of which it is possible to correct the angle of convergence at the screen and to improve the uniformity of the resolution distribution over the entire field of the screen.

The gun works as follows.

The cathode 1 is heated and voltages are applied to the EOS electrodes. The electrons emitted by the cathode are accelerated by the potential difference between the cathode and the electrodes of the focusing lens. The magnitude of the electron current is modulated by the modulator 2. An accelerated electron flow passes through the focusing lens and into the diaphragm 6, where its central part is cut. The cut-out part of the flow continues to accelerate, passes through the focusing system and exits the gun in the form of a beam.

The flow aperture in front of the diaphragm is determined by the distribution of potentials on the electrodes of the focusing lens and the diaphragm. It can be reduced by matching the potential on the middle electrode of the lens and the diaphragm. Selection of the distribution of potentials on the diaphragm, additional and focusing electrode can reduce the angle of convergence of the trajectories of electrons on the screen. Correction of the angle of convergence of the beam at the screen can be both static and dynamic.

When static correction of the angle of convergence by selecting the potential on the electrode 7, you can achieve the maximum uniformity of resolution across the entire field of the screen.

During dynamic correction, the minimum angle of convergence at the screen synchronously moves with the expansion of the line and is achieved with a synchronous change of the potential value on the electrode 7, corresponding to the minimum angle of convergence in

four

center and edge of the screen. In this case, it is possible to obtain the maximum resolution and its uniformity across the entire field of the screen. Electrodes 7 and 8 form the main focusing lens of the system.

The use of the proposed gun improves the image quality across the entire screen, both at low and high brightness of the screen in EBD with a screen diagonal of 11, 16, 25, 32, and 40 cm with static beam correction (sub-focusing), and for large screens with a diagonal 50, 61, 67 cm and more, both with static and with dynamic correction (focusing) of the beam aperture in the low-voltage part of the EOS for a high-resolution EBT.

Thus, the proposed solution will improve the parameters of existing devices, as well as create new devices with improved lighting characteristics (screen luminance, high resolution and even distribution across the screen).

Claims (2)

Claim 1. An electron gun for a receiving electron beam tube containing a coaxial cathode, a modulator, three electrodes of the focusing lens with holes, the outer electrodes of which are electrically interconnected, a focusing electrode and an anode, characterized in that, in order to increase the resolution and uniformity of its distribution along the entire tube screen field by reducing the aperture of the beam, it is equipped with coaxially the rest of the gun elements with an additional diaphragm located between the diaphragm and the focusing electrode, and with a hole located between the diaphragm and the focusing electrode, the diameter of the hole in the diaphragm is less than the diameter of the holes in the electrodes of the focusing lens, and the additional electrode has a length greater than the diameter of the hole in it. 2. Electronic gun on π. 1, characterized in that the center electrode of the focusing lens is electrically connected to an additional electrode.