SU651427A1 - Electron-optical system - Google Patents

Description

I

The invention relates to the electrovacuum industry and can be used in the production of color picture tubes.

The well-known electron-optical system (EOS) with the triad and European arrangement of electric searchlights.

The EOS contains three cathrades, a first common electrode, a second common electrode serving as an accelerating electrode, a third common electrode, a fourth and fifth electrodes of circular section. The first three electrodes have coaxial holes for each beam l

Three beams after the third electrode enter the scattering lens formed by the third and four end electrodes, which reduces to the amplitude of the extreme beams in front of the entrance to the lens formed by the fourth and fifth electrodes, which focuses and reduces three beams in the plane of the mask. Dilution of the outermost beams is achieved by making the fourth electrode, which serves as the focusing electrode, in the form of a common cylinder located asymmetrically to the central beam and eccentric with respect to the axes of the outermost beams, the length of this electrode, as well as the dimensions of the diameters of its cylindrical parts on the sides of the third and The fifth electrodes are chosen so as to exclude the mutual influence of the fields formed between the third - the fourth, tenth and the fourth - the fifth electrodes.

The known AIA has the disadvantage that in the plane of the focusing lenses formed by the third and fourth, fourth and fifth lectures. The distance between the bullets is much larger than in the region of the first three electrodes. In addition, the cross section of each of the beams in the region of these lenses is quite large, which leads to significant aberrations (spherical, coma, astigmatism).

The well-known EOS for color kinescopes with three coplanarly arranged electronic projectors, each of which contains a cathode, an accelerator electrode, an additional spotting line-forming electrodes, includes a common electrostatic information system for three electron beams, formed by an axially positioned sweep electrode and a syringe structure and a structured structured symmetric electrode system formed by an axially arranged sweep electrode and a structured structure. The convergence electrode consists of two conjugated cylinders of different diameters, of which a cylinder with a large diameter is located second along the electron beam. The end parts of the cylinder of the convergence electrode and the end face of the anode facing it are a complex, for example, sinusoidal profile 2.

The known EOS does not solve the problem of reducing the distortion of extreme electron beams, since the aberrations of the system are determined by the ratio of the distance of the edge of the beam at the exit of the convergence electrode from the axis of the system to the internal diameter of this convergence electrode, and the size of the beam in the system.

If it is possible to correct and correct the shape of the electron spot, the parameters of the center spot deteriorate due to a shift in the plane of optimal focusing. In addition, a disadvantage of the EOS design is the combination of a focusing system with a convergence system.

Consequently, the well-known system has unsatisfactory mixing and resolution itself with a complex construction of EOS.

The purpose of the present invention is to improve self-knowledge, increase resolution while simplifying the design.

For this, the end of the convergence electrode facing the electron projectors is provided with a conductive wall with three holes axial with the holes of the electrodes entering the corresponding electronic projectors, and the length of the cylinder of the large-diameter convergence electrode Nyatoy diameter.

The drawing shows a general view of the proposed era design and the course of three electron beams.

i Offered EOS - contains separate cathodes 1, separate modulators 2, common accelerating electrode 3, flat common electrodes 4, 5 and 6, electro 7 knowledge, consisting of two adjacent cylinders of different diameters: larger than gr 8 and less than 9 (it can be

or an inner bowl 8 with holes at the base coaxially arranged to facilitate mounting of the cylinder 9 of the same diameter and having electrical contact with the cup). Flat electrodes 4, 5, 6 and cylinders 9 or holes in a cylindrical cup 8, as well as coaxial holes, form focusing lenses for each of the beams, and electrodes 5 and b have electrical contact between them and perform the function of a focusing electrode. Electrode 4 can be located under the potential of electrode 7 (the focusing system works as a single lens), either under the potential of electrodes -5 and 6 or, having a separate potential adjustment, performs the function of focusing. Electrode 10 is. a high-voltage anode, which can be made in the form of a conductor of the coating on the inner surface of the throat, kinescope, and forms with the cylindrical cup 8 of the electrode 7 a bipotecial convergence lens.

The proposed electron-optical system works as follows.

Since EOS, up to the system of holes at the base of the convergence electrode, is a system of coplanar spotlights in which the electrodes are aligned, therefore, they work as three individual EOS with axial symmetry, in which the axial intensity and focusing are controlled. beams, and the focusing of beams is performed by lines made of a system of coaxial electrodes 4, 5, 6, 9, forming a single or bipotemal lens depending on the combination of potentials on these electrodes.

Alter the potential of the convergence electrode 7, i.e., alter the strength of the common bipotenial lens formed by the convergence electrode and the anode, made in the form of a current-conducting coating on the upper surface BHyiN, and take the outer beams as a conventionally wide beam with a symmetry axis along the central beam, lens carries out the convergence of beams in the plane of the mask (screen) of the kinescope.

By changing the potential of the focusing electrode, optimal focusing of the electron beams on the screen of the kinescope is achieved. 56 The possibility of using the information of three parallel beams on the screen (mask) of a bipotence lens tube, the convergence electrode of which is made in the form of a cylindrical cup with a limited length, showed a numerical analysis of the properties of such systems, carried out with the aid of the BZSM-B computer. According to the calculation, the acceptable length of the cylindrical part of the convergence electrode for a given half-night of the convergence plane for color kinescopes and for a given ratio of potentials of the convergence anode is the value of l / 0.35 - 0.6 of the diameter In the polar part of the convergence electrode Experimental specimens of the proposed design are electron-optical These systems were manufactured and tested in kinescopes with further main ones, whether the pair is competitive. meters: the diameter of the anode D is equal to 24 mm; the larger diameter of the cylindrical part of the convergence electrode is equal to 20 mm and is the length. 6 is equal to 1 O mm, the internal diameter of the electrode holes, the formation of the lens, is 4 mm, and the distance between the centers of the adjacent holes is 5 mm. With the potential of the anode, 4 25 kV, the electrode of the convergence electrode is 4.5 kV, the magnitude of the focusing voltage is within ZOO-600V, and the residual inactivity value equals 1.5 mm in the center of the screen and 2.5-3 mm in screen corners. Formula 3 is acquired Hi Electrically optical system for PVC kinescopes with three coplanar arranged electronic spotlights amn, each of which contains a cathode, a fast electrode modulator, additional line-forming electrodes, including the electrostatic information that is common to three electron beams, electrostatic information, and the same, for example, to get to one, one, one, one, one, one, one, one, one, one, one, one, one, one, one, one figure, one, one, one, one, one figure, one, one, one, one figure, one in one, the other, the other, the other, one, one, one, one, one, the other, one, three, three electrodes, a beam, one can use; with a pinch pin and a cilar anode, and the mix electrode consists of two conjugated cylinders (X) In rajplh diameters, of which pilshshr with a large diameter the second in the course of the electron beam, which is different from the fact that, in order to improve self-assembled, improved resolution while simplifying the design, the tip of the converging electrode facing electrically illuminated projectors is equipped with a conductive wire with three holes axial with the holes of the electrodes included in the corresponding electronic projectors, and the length of the cylinder is eleutro. Yes, the information with a large diameter is 0.35 - 0.6 of the mentioned meter.: Sources of information taken by Bf are noteworthy for examination 1.US Patent J, cn, 313-69, 03.15.72. 2. US patent number 3678316, cl. 313-69, 07.18.72.